dsProject/dsRagAnything/Topic/Chemistry/kv_store_llm_response_cache.json

{
  "default": {
    "c3361b3189c9feea61fad50439eebe21": {
      "return": "(\"entity\"<|>\"氢气\"<|>\"category\"<|>\"Hydrogen is a chemical element that reacts with oxygen to form water.\")##\n(\"entity\"<|>\"氧气\"<|>\"category\"<|>\"Oxygen is a chemical element that reacts with hydrogen to form water.\")##\n(\"entity\"<|>\"化学反应\"<|>\"event\"<|>\"A chemical reaction between hydrogen and oxygen produces water.\")##\n(\"relationship\"<|>\"氢气\"<|>\"氧气\"<|>\"Hydrogen and oxygen react chemically to form water.\"<|>\"chemical reaction, water formation\"<|>10)##\n(\"relationship\"<|>\"氢气\"<|>\"化学反应\"<|>\"Hydrogen is a reactant in the chemical reaction that produces water.\"<|>\"reactant, chemical process\"<|>9)##\n(\"relationship\"<|>\"氧气\"<|>\"化学反应\"<|>\"Oxygen is a reactant in the chemical reaction that produces water.\"<|>\"reactant, chemical process\"<|>9)##\n(\"content_keywords\"<|>\"chemical reaction, elements, water formation\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-a92c992eb95f6e5fe155e1ff3dbce047",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "---Goal---\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\nUse English as output language.\n\n---Steps---\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n######################\n---Examples---\n######################\nExample 1:\n\nEntity_types: [person, technology, mission, organization, location]\nText:\n```\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\n\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \"If this tech can be understood...\" Taylor said, their voice quieter, \"It could change the game for us. For all of us.\"\n\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\n\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\n```\n\nOutput:\n(\"entity\"<|>\"Alex\"<|>\"person\"<|>\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\")##\n(\"entity\"<|>\"Taylor\"<|>\"person\"<|>\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\")##\n(\"entity\"<|>\"Jordan\"<|>\"person\"<|>\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\")##\n(\"entity\"<|>\"Cruz\"<|>\"person\"<|>\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\")##\n(\"entity\"<|>\"The Device\"<|>\"technology\"<|>\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\")##\n(\"relationship\"<|>\"Alex\"<|>\"Taylor\"<|>\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\"<|>\"power dynamics, perspective shift\"<|>7)##\n(\"relationship\"<|>\"Alex\"<|>\"Jordan\"<|>\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\"<|>\"shared goals, rebellion\"<|>6)##\n(\"relationship\"<|>\"Taylor\"<|>\"Jordan\"<|>\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\"<|>\"conflict resolution, mutual respect\"<|>8)##\n(\"relationship\"<|>\"Jordan\"<|>\"Cruz\"<|>\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\"<|>\"ideological conflict, rebellion\"<|>5)##\n(\"relationship\"<|>\"Taylor\"<|>\"The Device\"<|>\"Taylor shows reverence towards the device, indicating its importance and potential impact.\"<|>\"reverence, technological significance\"<|>9)##\n(\"content_keywords\"<|>\"power dynamics, ideological conflict, discovery, rebellion\")<|COMPLETE|>\n#############################\nExample 2:\n\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\nText:\n```\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\n\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\n\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\n\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\n```\n\nOutput:\n(\"entity\"<|>\"Global Tech Index\"<|>\"index\"<|>\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\")##\n(\"entity\"<|>\"Nexon Technologies\"<|>\"company\"<|>\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\")##\n(\"entity\"<|>\"Omega Energy\"<|>\"company\"<|>\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\")##\n(\"entity\"<|>\"Gold Futures\"<|>\"commodity\"<|>\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\")##\n(\"entity\"<|>\"Crude Oil\"<|>\"commodity\"<|>\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\")##\n(\"entity\"<|>\"Market Selloff\"<|>\"market_trend\"<|>\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\")##\n(\"entity\"<|>\"Federal Reserve Policy Announcement\"<|>\"economic_policy\"<|>\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\")##\n(\"relationship\"<|>\"Global Tech Index\"<|>\"Market Selloff\"<|>\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\"<|>\"market performance, investor sentiment\"<|>9)##\n(\"relationship\"<|>\"Nexon Technologies\"<|>\"Global Tech Index\"<|>\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\"<|>\"company impact, index movement\"<|>8)##\n(\"relationship\"<|>\"Gold Futures\"<|>\"Market Selloff\"<|>\"Gold prices rose as investors sought safe-haven assets during the market selloff.\"<|>\"market reaction, safe-haven investment\"<|>10)##\n(\"relationship\"<|>\"Federal Reserve Policy Announcement\"<|>\"Market Selloff\"<|>\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\"<|>\"interest rate impact, financial regulation\"<|>7)##\n(\"content_keywords\"<|>\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\")<|COMPLETE|>\n#############################\nExample 3:\n\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\nText:\n```\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\n```\n\nOutput:\n(\"entity\"<|>\"World Athletics Championship\"<|>\"event\"<|>\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\")##\n(\"entity\"<|>\"Tokyo\"<|>\"location\"<|>\"Tokyo is the host city of the World Athletics Championship.\")##\n(\"entity\"<|>\"Noah Carter\"<|>\"athlete\"<|>\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\")##\n(\"entity\"<|>\"100m Sprint Record\"<|>\"record\"<|>\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\")##\n(\"entity\"<|>\"Carbon-Fiber Spikes\"<|>\"equipment\"<|>\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\")##\n(\"entity\"<|>\"World Athletics Federation\"<|>\"organization\"<|>\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\")##\n(\"relationship\"<|>\"World Athletics Championship\"<|>\"Tokyo\"<|>\"The World Athletics Championship is being hosted in Tokyo.\"<|>\"event location, international competition\"<|>8)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"100m Sprint Record\"<|>\"Noah Carter set a new 100m sprint record at the championship.\"<|>\"athlete achievement, record-breaking\"<|>10)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"Carbon-Fiber Spikes\"<|>\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\"<|>\"athletic equipment, performance boost\"<|>7)##\n(\"relationship\"<|>\"World Athletics Federation\"<|>\"100m Sprint Record\"<|>\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\"<|>\"sports regulation, record certification\"<|>9)##\n(\"content_keywords\"<|>\"athletics, sprinting, record-breaking, sports technology, competition\")<|COMPLETE|>\n#############################\n\n#############################\n---Real Data---\n######################\nEntity_types: [organization,person,geo,event,category]\nText:\n氢气与氧气反应化学方程式\n######################\nOutput:"
    },
    "bbfe56ab7de9391d71fd6f3ac1d2d56e": {
      "return": "(\"entity\"<|>\"氢气\"<|>\"category\"<|>\"Hydrogen is a colorless, odorless, highly flammable gas and the lightest chemical element.\")##\n(\"entity\"<|>\"氧气\"<|>\"category\"<|>\"Oxygen is a colorless, odorless gas essential for respiration and combustion, making up about 21% of Earth's atmosphere.\")##\n(\"entity\"<|>\"水\"<|>\"category\"<|>\"Water is the chemical compound formed when hydrogen and oxygen react, essential for all known forms of life.\")##\n(\"entity\"<|>\"化学反应\"<|>\"event\"<|>\"A chemical reaction is a process where substances interact to form new substances with different properties.\")##\n(\"entity\"<|>\"化学方程式\"<|>\"category\"<|>\"A chemical equation is a symbolic representation of a chemical reaction using chemical formulas.\")##\n(\"relationship\"<|>\"氢气\"<|>\"氧气\"<|>\"Hydrogen and oxygen react to form water through a chemical reaction.\"<|>\"chemical reaction, compound formation\"<|>10)##\n(\"relationship\"<|>\"氢气\"<|>\"水\"<|>\"Hydrogen is one of the two elements that combine to form water.\"<|>\"element composition, molecular structure\"<|>9)##\n(\"relationship\"<|>\"氧气\"<|>\"水\"<|>\"Oxygen is one of the two elements that combine to form water.\"<|>\"element composition, molecular structure\"<|>9)##\n(\"relationship\"<|>\"氢气\"<|>\"化学反应\"<|>\"Hydrogen participates in chemical reactions, such as its reaction with oxygen to form water.\"<|>\"reactant, chemical process\"<|>8)##\n(\"relationship\"<|>\"氧气\"<|>\"化学反应\"<|>\"Oxygen participates in chemical reactions, such as its reaction with hydrogen to form water.\"<|>\"reactant, chemical process\"<|>8)##\n(\"relationship\"<|>\"水\"<|>\"化学反应\"<|>\"Water is the product of the chemical reaction between hydrogen and oxygen.\"<|>\"reaction product, compound formation\"<|>9)##\n(\"relationship\"<|>\"化学方程式\"<|>\"化学反应\"<|>\"A chemical equation represents and describes a chemical reaction.\"<|>\"symbolic representation, scientific notation\"<|>8)##\n(\"relationship\"<|>\"化学方程式\"<|>\"水\"<|>\"The chemical equation shows the formation of water from hydrogen and oxygen.\"<|>\"reaction representation, product formation\"<|>7)##\n(\"content_keywords\"<|>\"chemical elements, reaction process, compound formation, scientific notation\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-a92c992eb95f6e5fe155e1ff3dbce047",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "[{\"role\": \"user\", \"content\": \"---Goal---\\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\\nUse English as output language.\\n\\n---Steps---\\n1. Identify all entities. For each identified entity, extract the following information:\\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\\n- entity_type: One of the following types: [organization,person,geo,event,category]\\n- entity_description: Comprehensive description of the entity's attributes and activities\\nFormat each entity as (\\\"entity\\\"<|><entity_name><|><entity_type><|><entity_description>)\\n\\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\\nFor each pair of related entities, extract the following information:\\n- source_entity: name of the source entity, as identified in step 1\\n- target_entity: name of the target entity, as identified in step 1\\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\\nFormat each relationship as (\\\"relationship\\\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\\n\\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\\nFormat the content-level key words as (\\\"content_keywords\\\"<|><high_level_keywords>)\\n\\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\\n\\n5. When finished, output <|COMPLETE|>\\n\\n######################\\n---Examples---\\n######################\\nExample 1:\\n\\nEntity_types: [person, technology, mission, organization, location]\\nText:\\n```\\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\\n\\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \\\"If this tech can be understood...\\\" Taylor said, their voice quieter, \\\"It could change the game for us. For all of us.\\\"\\n\\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\\n\\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Alex\\\"<|>\\\"person\\\"<|>\\\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"Taylor\\\"<|>\\\"person\\\"<|>\\\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\\\")##\\n(\\\"entity\\\"<|>\\\"Jordan\\\"<|>\\\"person\\\"<|>\\\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\\\")##\\n(\\\"entity\\\"<|>\\\"Cruz\\\"<|>\\\"person\\\"<|>\\\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"The Device\\\"<|>\\\"technology\\\"<|>\\\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\\\")##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Taylor\\\"<|>\\\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\\\"<|>\\\"power dynamics, perspective shift\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Jordan\\\"<|>\\\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\\\"<|>\\\"shared goals, rebellion\\\"<|>6)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"Jordan\\\"<|>\\\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\\\"<|>\\\"conflict resolution, mutual respect\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Jordan\\\"<|>\\\"Cruz\\\"<|>\\\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\\\"<|>\\\"ideological conflict, rebellion\\\"<|>5)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"The Device\\\"<|>\\\"Taylor shows reverence towards the device, indicating its importance and potential impact.\\\"<|>\\\"reverence, technological significance\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"power dynamics, ideological conflict, discovery, rebellion\\\")<|COMPLETE|>\\n#############################\\nExample 2:\\n\\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\\nText:\\n```\\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\\n\\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\\n\\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\\n\\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Global Tech Index\\\"<|>\\\"index\\\"<|>\\\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\\\")##\\n(\\\"entity\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"company\\\"<|>\\\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\\\")##\\n(\\\"entity\\\"<|>\\\"Omega Energy\\\"<|>\\\"company\\\"<|>\\\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\\\")##\\n(\\\"entity\\\"<|>\\\"Gold Futures\\\"<|>\\\"commodity\\\"<|>\\\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\\\")##\\n(\\\"entity\\\"<|>\\\"Crude Oil\\\"<|>\\\"commodity\\\"<|>\\\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\\\")##\\n(\\\"entity\\\"<|>\\\"Market Selloff\\\"<|>\\\"market_trend\\\"<|>\\\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\\\")##\\n(\\\"entity\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"economic_policy\\\"<|>\\\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\\\")##\\n(\\\"relationship\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Market Selloff\\\"<|>\\\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\\\"<|>\\\"market performance, investor sentiment\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\\\"<|>\\\"company impact, index movement\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Gold Futures\\\"<|>\\\"Market Selloff\\\"<|>\\\"Gold prices rose as investors sought safe-haven assets during the market selloff.\\\"<|>\\\"market reaction, safe-haven investment\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"Market Selloff\\\"<|>\\\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\\\"<|>\\\"interest rate impact, financial regulation\\\"<|>7)##\\n(\\\"content_keywords\\\"<|>\\\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\\\")<|COMPLETE|>\\n#############################\\nExample 3:\\n\\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\\nText:\\n```\\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"event\\\"<|>\\\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\\\")##\\n(\\\"entity\\\"<|>\\\"Tokyo\\\"<|>\\\"location\\\"<|>\\\"Tokyo is the host city of the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"Noah Carter\\\"<|>\\\"athlete\\\"<|>\\\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"record\\\"<|>\\\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\\\")##\\n(\\\"entity\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"equipment\\\"<|>\\\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\\\")##\\n(\\\"entity\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"organization\\\"<|>\\\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\\\")##\\n(\\\"relationship\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"Tokyo\\\"<|>\\\"The World Athletics Championship is being hosted in Tokyo.\\\"<|>\\\"event location, international competition\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"Noah Carter set a new 100m sprint record at the championship.\\\"<|>\\\"athlete achievement, record-breaking\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\\\"<|>\\\"athletic equipment, performance boost\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\\\"<|>\\\"sports regulation, record certification\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"athletics, sprinting, record-breaking, sports technology, competition\\\")<|COMPLETE|>\\n#############################\\n\\n#############################\\n---Real Data---\\n######################\\nEntity_types: [organization,person,geo,event,category]\\nText:\\n氢气与氧气反应化学方程式\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"氢气\\\"<|>\\\"category\\\"<|>\\\"Hydrogen is a chemical element that reacts with oxygen to form water.\\\")##\\n(\\\"entity\\\"<|>\\\"氧气\\\"<|>\\\"category\\\"<|>\\\"Oxygen is a chemical element that reacts with hydrogen to form water.\\\")##\\n(\\\"entity\\\"<|>\\\"化学反应\\\"<|>\\\"event\\\"<|>\\\"A chemical reaction between hydrogen and oxygen produces water.\\\")##\\n(\\\"relationship\\\"<|>\\\"氢气\\\"<|>\\\"氧气\\\"<|>\\\"Hydrogen and oxygen react chemically to form water.\\\"<|>\\\"chemical reaction, water formation\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"氢气\\\"<|>\\\"化学反应\\\"<|>\\\"Hydrogen is a reactant in the chemical reaction that produces water.\\\"<|>\\\"reactant, chemical process\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"氧气\\\"<|>\\\"化学反应\\\"<|>\\\"Oxygen is a reactant in the chemical reaction that produces water.\\\"<|>\\\"reactant, chemical process\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"chemical reaction, elements, water formation\\\")<|COMPLETE|>\"}]\nMANY entities and relationships were missed in the last extraction.\n\n---Remember Steps---\n\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n---Output---\n\nAdd them below using the same format:"
    },
    "e2ed0b54d0592f3cf26d520869766cbe": {
      "return": "(\"entity\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"category\"<|>\"This balanced chemical equation represents the combustion of hydrogen and oxygen to form water, adhering to mass conservation. It is foundational in chemistry, with applications in energy production and education.\")##\n(\"entity\"<|>\"Hydrogen (H₂)\"<|>\"category\"<|>\"Diatomic hydrogen molecule, a reactant in the combustion equation, fundamental in chemical reactions and energy studies.\")##\n(\"entity\"<|>\"Oxygen (O₂)\"<|>\"category\"<|>\"Diatomic oxygen molecule, a reactant in the combustion equation, essential for combustion and respiration processes.\")##\n(\"entity\"<|>\"Water (H₂O)\"<|>\"category\"<|>\"The product of the combustion equation, a vital molecule for life and industrial applications.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"The mathematical relationship between reactants and products in a chemical reaction, exemplified by the combustion equation.\")##\n(\"entity\"<|>\"Thermodynamics\"<|>\"category\"<|>\"The study of energy changes in reactions, relevant to the exothermic nature of the combustion equation.\")##\n(\"entity\"<|>\"Hydrogen Fuel Technology\"<|>\"category\"<|>\"An application of the combustion equation, focusing on clean energy production.\")##\n(\"relationship\"<|>\"Hydrogen (H₂)\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"Hydrogen is a reactant in the combustion equation, playing a key role in the reaction.\"<|>\"reactant, chemical reaction\"<|>9)##\n(\"relationship\"<|>\"Oxygen (O₂)\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"Oxygen is a reactant in the combustion equation, essential for the reaction to occur.\"<|>\"reactant, combustion\"<|>9)##\n(\"relationship\"<|>\"Water (H₂O)\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"Water is the product of the combustion equation, formed from hydrogen and oxygen.\"<|>\"product, synthesis\"<|>10)##\n(\"relationship\"<|>\"Stoichiometry\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"The equation is a prime example of stoichiometric principles, balancing reactants and products.\"<|>\"mathematical balance, chemical ratios\"<|>8)##\n(\"relationship\"<|>\"Thermodynamics\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"The equation illustrates enthalpy change and energy release, key concepts in thermodynamics.\"<|>\"energy release, exothermic reaction\"<|>8)##\n(\"relationship\"<|>\"Hydrogen Fuel Technology\"<|>\"Hydrogen-Oxygen Combustion Equation\"<|>\"The equation underpins hydrogen fuel technology, showcasing its clean energy potential.\"<|>\"clean energy, practical application\"<|>7)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, thermodynamics, clean energy, combustion\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-3e43e1f14ec3bfe2ea1ec990e4a7a3dd",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "---Goal---\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\nUse English as output language.\n\n---Steps---\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n######################\n---Examples---\n######################\nExample 1:\n\nEntity_types: [person, technology, mission, organization, location]\nText:\n```\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\n\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \"If this tech can be understood...\" Taylor said, their voice quieter, \"It could change the game for us. For all of us.\"\n\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\n\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\n```\n\nOutput:\n(\"entity\"<|>\"Alex\"<|>\"person\"<|>\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\")##\n(\"entity\"<|>\"Taylor\"<|>\"person\"<|>\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\")##\n(\"entity\"<|>\"Jordan\"<|>\"person\"<|>\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\")##\n(\"entity\"<|>\"Cruz\"<|>\"person\"<|>\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\")##\n(\"entity\"<|>\"The Device\"<|>\"technology\"<|>\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\")##\n(\"relationship\"<|>\"Alex\"<|>\"Taylor\"<|>\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\"<|>\"power dynamics, perspective shift\"<|>7)##\n(\"relationship\"<|>\"Alex\"<|>\"Jordan\"<|>\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\"<|>\"shared goals, rebellion\"<|>6)##\n(\"relationship\"<|>\"Taylor\"<|>\"Jordan\"<|>\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\"<|>\"conflict resolution, mutual respect\"<|>8)##\n(\"relationship\"<|>\"Jordan\"<|>\"Cruz\"<|>\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\"<|>\"ideological conflict, rebellion\"<|>5)##\n(\"relationship\"<|>\"Taylor\"<|>\"The Device\"<|>\"Taylor shows reverence towards the device, indicating its importance and potential impact.\"<|>\"reverence, technological significance\"<|>9)##\n(\"content_keywords\"<|>\"power dynamics, ideological conflict, discovery, rebellion\")<|COMPLETE|>\n#############################\nExample 2:\n\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\nText:\n```\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\n\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\n\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\n\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\n```\n\nOutput:\n(\"entity\"<|>\"Global Tech Index\"<|>\"index\"<|>\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\")##\n(\"entity\"<|>\"Nexon Technologies\"<|>\"company\"<|>\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\")##\n(\"entity\"<|>\"Omega Energy\"<|>\"company\"<|>\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\")##\n(\"entity\"<|>\"Gold Futures\"<|>\"commodity\"<|>\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\")##\n(\"entity\"<|>\"Crude Oil\"<|>\"commodity\"<|>\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\")##\n(\"entity\"<|>\"Market Selloff\"<|>\"market_trend\"<|>\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\")##\n(\"entity\"<|>\"Federal Reserve Policy Announcement\"<|>\"economic_policy\"<|>\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\")##\n(\"relationship\"<|>\"Global Tech Index\"<|>\"Market Selloff\"<|>\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\"<|>\"market performance, investor sentiment\"<|>9)##\n(\"relationship\"<|>\"Nexon Technologies\"<|>\"Global Tech Index\"<|>\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\"<|>\"company impact, index movement\"<|>8)##\n(\"relationship\"<|>\"Gold Futures\"<|>\"Market Selloff\"<|>\"Gold prices rose as investors sought safe-haven assets during the market selloff.\"<|>\"market reaction, safe-haven investment\"<|>10)##\n(\"relationship\"<|>\"Federal Reserve Policy Announcement\"<|>\"Market Selloff\"<|>\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\"<|>\"interest rate impact, financial regulation\"<|>7)##\n(\"content_keywords\"<|>\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\")<|COMPLETE|>\n#############################\nExample 3:\n\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\nText:\n```\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\n```\n\nOutput:\n(\"entity\"<|>\"World Athletics Championship\"<|>\"event\"<|>\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\")##\n(\"entity\"<|>\"Tokyo\"<|>\"location\"<|>\"Tokyo is the host city of the World Athletics Championship.\")##\n(\"entity\"<|>\"Noah Carter\"<|>\"athlete\"<|>\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\")##\n(\"entity\"<|>\"100m Sprint Record\"<|>\"record\"<|>\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\")##\n(\"entity\"<|>\"Carbon-Fiber Spikes\"<|>\"equipment\"<|>\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\")##\n(\"entity\"<|>\"World Athletics Federation\"<|>\"organization\"<|>\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\")##\n(\"relationship\"<|>\"World Athletics Championship\"<|>\"Tokyo\"<|>\"The World Athletics Championship is being hosted in Tokyo.\"<|>\"event location, international competition\"<|>8)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"100m Sprint Record\"<|>\"Noah Carter set a new 100m sprint record at the championship.\"<|>\"athlete achievement, record-breaking\"<|>10)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"Carbon-Fiber Spikes\"<|>\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\"<|>\"athletic equipment, performance boost\"<|>7)##\n(\"relationship\"<|>\"World Athletics Federation\"<|>\"100m Sprint Record\"<|>\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\"<|>\"sports regulation, record certification\"<|>9)##\n(\"content_keywords\"<|>\"athletics, sprinting, record-breaking, sports technology, competition\")<|COMPLETE|>\n#############################\n\n#############################\n---Real Data---\n######################\nEntity_types: [organization,person,geo,event,category]\nText:\nMathematical Equation Analysis:\nEquation: $$\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\n$$\nFormat: latex\n\nMathematical Analysis: ```json\n{\n    \"detailed_description\": \"The equation $$2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O$$ represents the balanced chemical reaction for the combustion of hydrogen gas (H₂) with oxygen gas (O₂) to form water (H₂O). Mathematically, it is a stoichiometric equation where the coefficients (2, 1, and 2) indicate the molar ratios of the reactants and products. The equation adheres to the law of conservation of mass, ensuring that the number of atoms for each element is equal on both sides. \n\n- **Variables and Definitions**: \n  - \\( H _ { 2 } \\): Diatomic hydrogen molecule (reactant).\n  - \\( O _ { 2 } \\): Diatomic oxygen molecule (reactant).\n  - \\( H _ { 2 } O \\): Water molecule (product).\n\n- **Mathematical Operations**: \n  - The equation uses integer coefficients to balance the reaction, ensuring atomic conservation. \n  - The '+' denotes the combination of reactants, and the '=' signifies the transformation into products.\n\n- **Application Domain**: \n  - This equation is fundamental in chemistry, particularly in stoichiometry, thermodynamics, and reaction kinetics. It describes a highly exothermic reaction, making it relevant in energy studies (e.g., hydrogen fuel cells).\n\n- **Physical/Theoretical Significance**: \n  - The reaction is a classic example of a synthesis (combination) reaction. \n  - It releases significant energy (ΔH < 0), illustrating the concept of enthalpy change in thermodynamics.\n\n- **Relationship to Other Concepts**: \n  - Connects to Avogadro's law (mole ratios), Hess's law (enthalpy), and reaction rate theory. \n  - Often used to introduce balancing equations in chemistry education.\n\n- **Practical Applications**: \n  - Hydrogen fuel technology (clean energy). \n  - Rocket propulsion (e.g., space shuttle main engines). \n  - Industrial water production.\n\n- **Broader Context**: \n  - The equation is central to discussions about sustainable energy and chemical bonding. It exemplifies how mathematical representation underpins chemical phenomena.\",\n    \"entity_info\": {\n        \"entity_name\": \"Hydrogen-Oxygen Combustion Equation\",\n        \"entity_type\": \"equation\",\n        \"summary\": \"This balanced chemical equation represents the combustion of hydrogen and oxygen to form water, adhering to mass conservation. It is foundational in chemistry, with applications in energy production and education.\"\n    }\n}\n```\n######################\nOutput:"
    },
    "ac0f05bc3cd554f2104e464541317d06": {
      "return": "(\"entity\"<|>\"Mathematical Equation Analysis\"<|>\"category\"<|>\"The process of analyzing and interpreting mathematical equations, particularly chemical reactions, to understand their components and implications.\")##\n(\"entity\"<|>\"Latex Format\"<|>\"category\"<|>\"A document preparation system used for formatting mathematical equations and scientific notations.\")##\n(\"entity\"<|>\"Balanced Chemical Reaction\"<|>\"category\"<|>\"A chemical equation where the number of atoms for each element is equal on both sides, adhering to the law of conservation of mass.\")##\n(\"entity\"<|>\"Law of Conservation of Mass\"<|>\"category\"<|>\"A fundamental principle in chemistry stating that mass is neither created nor destroyed in a chemical reaction.\")##\n(\"entity\"<|>\"Stoichiometric Coefficients\"<|>\"category\"<|>\"Numerical values in a chemical equation that indicate the molar ratios of reactants and products.\")##\n(\"entity\"<|>\"Avogadro's Law\"<|>\"category\"<|>\"A principle stating that equal volumes of gases at the same temperature and pressure contain equal numbers of molecules.\")##\n(\"entity\"<|>\"Hess's Law\"<|>\"category\"<|>\"A law in thermodynamics stating that the enthalpy change of a reaction is the same regardless of the pathway taken.\")##\n(\"entity\"<|>\"Reaction Kinetics\"<|>\"category\"<|>\"The study of rates of chemical reactions and the factors that affect them.\")##\n(\"entity\"<|>\"Enthalpy Change\"<|>\"category\"<|>\"The heat energy change in a chemical reaction at constant pressure, often denoted as ΔH.\")##\n(\"entity\"<|>\"Synthesis Reaction\"<|>\"category\"<|>\"A type of chemical reaction where two or more reactants combine to form a single product.\")##\n(\"entity\"<|>\"Hydrogen Fuel Cells\"<|>\"category\"<|>\"Devices that convert chemical energy from hydrogen into electricity through a chemical reaction with oxygen.\")##\n(\"entity\"<|>\"Rocket Propulsion\"<|>\"category\"<|>\"The use of chemical reactions, such as hydrogen combustion, to propel rockets.\")##\n(\"entity\"<|>\"Industrial Water Production\"<|>\"category\"<|>\"The large-scale production of water through chemical reactions, such as hydrogen combustion.\")##\n(\"relationship\"<|>\"Mathematical Equation Analysis\"<|>\"Latex Format\"<|>\"The equation is presented in Latex format, which is commonly used for mathematical and scientific documentation.\"<|>\"documentation, scientific notation\"<|>7)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Law of Conservation of Mass\"<|>\"The equation adheres to the law of conservation of mass, ensuring atomic balance on both sides.\"<|>\"atomic balance, fundamental principle\"<|>9)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Stoichiometric Coefficients\"<|>\"The coefficients in the equation represent the molar ratios of reactants and products.\"<|>\"molar ratios, chemical balance\"<|>8)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Avogadro's Law\"<|>\"The equation relates to Avogadro's law through the mole ratios of gaseous reactants and products.\"<|>\"mole ratios, gas laws\"<|>7)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Hess's Law\"<|>\"The enthalpy change in the reaction is consistent with Hess's law, regardless of the reaction pathway.\"<|>\"enthalpy, thermodynamic consistency\"<|>8)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Reaction Kinetics\"<|>\"The equation can be studied in terms of reaction kinetics to understand the rate of hydrogen combustion.\"<|>\"reaction rates, kinetic analysis\"<|>7)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Enthalpy Change\"<|>\"The reaction is exothermic, releasing energy, which is a key concept in enthalpy change.\"<|>\"energy release, exothermic\"<|>9)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Synthesis Reaction\"<|>\"The equation represents a synthesis reaction where hydrogen and oxygen combine to form water.\"<|>\"chemical combination, product formation\"<|>8)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Hydrogen Fuel Cells\"<|>\"The reaction is central to the operation of hydrogen fuel cells, which produce clean energy.\"<|>\"clean energy, electrochemical reaction\"<|>9)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Rocket Propulsion\"<|>\"The reaction is used in rocket propulsion systems for its high energy output.\"<|>\"high energy, propulsion\"<|>8)##\n(\"relationship\"<|>\"Balanced Chemical Reaction\"<|>\"Industrial Water Production\"<|>\"The reaction is employed in industrial settings to produce water on a large scale.\"<|>\"large-scale production, industrial application\"<|>7)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, thermodynamics, energy production, industrial applications\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-3e43e1f14ec3bfe2ea1ec990e4a7a3dd",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "[{\"role\": \"user\", \"content\": \"---Goal---\\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\\nUse English as output language.\\n\\n---Steps---\\n1. Identify all entities. For each identified entity, extract the following information:\\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\\n- entity_type: One of the following types: [organization,person,geo,event,category]\\n- entity_description: Comprehensive description of the entity's attributes and activities\\nFormat each entity as (\\\"entity\\\"<|><entity_name><|><entity_type><|><entity_description>)\\n\\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\\nFor each pair of related entities, extract the following information:\\n- source_entity: name of the source entity, as identified in step 1\\n- target_entity: name of the target entity, as identified in step 1\\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\\nFormat each relationship as (\\\"relationship\\\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\\n\\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\\nFormat the content-level key words as (\\\"content_keywords\\\"<|><high_level_keywords>)\\n\\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\\n\\n5. When finished, output <|COMPLETE|>\\n\\n######################\\n---Examples---\\n######################\\nExample 1:\\n\\nEntity_types: [person, technology, mission, organization, location]\\nText:\\n```\\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\\n\\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \\\"If this tech can be understood...\\\" Taylor said, their voice quieter, \\\"It could change the game for us. For all of us.\\\"\\n\\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\\n\\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Alex\\\"<|>\\\"person\\\"<|>\\\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"Taylor\\\"<|>\\\"person\\\"<|>\\\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\\\")##\\n(\\\"entity\\\"<|>\\\"Jordan\\\"<|>\\\"person\\\"<|>\\\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\\\")##\\n(\\\"entity\\\"<|>\\\"Cruz\\\"<|>\\\"person\\\"<|>\\\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"The Device\\\"<|>\\\"technology\\\"<|>\\\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\\\")##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Taylor\\\"<|>\\\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\\\"<|>\\\"power dynamics, perspective shift\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Jordan\\\"<|>\\\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\\\"<|>\\\"shared goals, rebellion\\\"<|>6)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"Jordan\\\"<|>\\\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\\\"<|>\\\"conflict resolution, mutual respect\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Jordan\\\"<|>\\\"Cruz\\\"<|>\\\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\\\"<|>\\\"ideological conflict, rebellion\\\"<|>5)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"The Device\\\"<|>\\\"Taylor shows reverence towards the device, indicating its importance and potential impact.\\\"<|>\\\"reverence, technological significance\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"power dynamics, ideological conflict, discovery, rebellion\\\")<|COMPLETE|>\\n#############################\\nExample 2:\\n\\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\\nText:\\n```\\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\\n\\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\\n\\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\\n\\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Global Tech Index\\\"<|>\\\"index\\\"<|>\\\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\\\")##\\n(\\\"entity\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"company\\\"<|>\\\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\\\")##\\n(\\\"entity\\\"<|>\\\"Omega Energy\\\"<|>\\\"company\\\"<|>\\\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\\\")##\\n(\\\"entity\\\"<|>\\\"Gold Futures\\\"<|>\\\"commodity\\\"<|>\\\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\\\")##\\n(\\\"entity\\\"<|>\\\"Crude Oil\\\"<|>\\\"commodity\\\"<|>\\\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\\\")##\\n(\\\"entity\\\"<|>\\\"Market Selloff\\\"<|>\\\"market_trend\\\"<|>\\\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\\\")##\\n(\\\"entity\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"economic_policy\\\"<|>\\\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\\\")##\\n(\\\"relationship\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Market Selloff\\\"<|>\\\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\\\"<|>\\\"market performance, investor sentiment\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\\\"<|>\\\"company impact, index movement\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Gold Futures\\\"<|>\\\"Market Selloff\\\"<|>\\\"Gold prices rose as investors sought safe-haven assets during the market selloff.\\\"<|>\\\"market reaction, safe-haven investment\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"Market Selloff\\\"<|>\\\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\\\"<|>\\\"interest rate impact, financial regulation\\\"<|>7)##\\n(\\\"content_keywords\\\"<|>\\\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\\\")<|COMPLETE|>\\n#############################\\nExample 3:\\n\\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\\nText:\\n```\\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"event\\\"<|>\\\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\\\")##\\n(\\\"entity\\\"<|>\\\"Tokyo\\\"<|>\\\"location\\\"<|>\\\"Tokyo is the host city of the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"Noah Carter\\\"<|>\\\"athlete\\\"<|>\\\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"record\\\"<|>\\\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\\\")##\\n(\\\"entity\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"equipment\\\"<|>\\\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\\\")##\\n(\\\"entity\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"organization\\\"<|>\\\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\\\")##\\n(\\\"relationship\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"Tokyo\\\"<|>\\\"The World Athletics Championship is being hosted in Tokyo.\\\"<|>\\\"event location, international competition\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"Noah Carter set a new 100m sprint record at the championship.\\\"<|>\\\"athlete achievement, record-breaking\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\\\"<|>\\\"athletic equipment, performance boost\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\\\"<|>\\\"sports regulation, record certification\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"athletics, sprinting, record-breaking, sports technology, competition\\\")<|COMPLETE|>\\n#############################\\n\\n#############################\\n---Real Data---\\n######################\\nEntity_types: [organization,person,geo,event,category]\\nText:\\nMathematical Equation Analysis:\\nEquation: $$\\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\\n$$\\nFormat: latex\\n\\nMathematical Analysis: ```json\\n{\\n    \\\"detailed_description\\\": \\\"The equation $$2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O$$ represents the balanced chemical reaction for the combustion of hydrogen gas (H₂) with oxygen gas (O₂) to form water (H₂O). Mathematically, it is a stoichiometric equation where the coefficients (2, 1, and 2) indicate the molar ratios of the reactants and products. The equation adheres to the law of conservation of mass, ensuring that the number of atoms for each element is equal on both sides. \\n\\n- **Variables and Definitions**: \\n  - \\\\( H _ { 2 } \\\\): Diatomic hydrogen molecule (reactant).\\n  - \\\\( O _ { 2 } \\\\): Diatomic oxygen molecule (reactant).\\n  - \\\\( H _ { 2 } O \\\\): Water molecule (product).\\n\\n- **Mathematical Operations**: \\n  - The equation uses integer coefficients to balance the reaction, ensuring atomic conservation. \\n  - The '+' denotes the combination of reactants, and the '=' signifies the transformation into products.\\n\\n- **Application Domain**: \\n  - This equation is fundamental in chemistry, particularly in stoichiometry, thermodynamics, and reaction kinetics. It describes a highly exothermic reaction, making it relevant in energy studies (e.g., hydrogen fuel cells).\\n\\n- **Physical/Theoretical Significance**: \\n  - The reaction is a classic example of a synthesis (combination) reaction. \\n  - It releases significant energy (ΔH < 0), illustrating the concept of enthalpy change in thermodynamics.\\n\\n- **Relationship to Other Concepts**: \\n  - Connects to Avogadro's law (mole ratios), Hess's law (enthalpy), and reaction rate theory. \\n  - Often used to introduce balancing equations in chemistry education.\\n\\n- **Practical Applications**: \\n  - Hydrogen fuel technology (clean energy). \\n  - Rocket propulsion (e.g., space shuttle main engines). \\n  - Industrial water production.\\n\\n- **Broader Context**: \\n  - The equation is central to discussions about sustainable energy and chemical bonding. It exemplifies how mathematical representation underpins chemical phenomena.\\\",\\n    \\\"entity_info\\\": {\\n        \\\"entity_name\\\": \\\"Hydrogen-Oxygen Combustion Equation\\\",\\n        \\\"entity_type\\\": \\\"equation\\\",\\n        \\\"summary\\\": \\\"This balanced chemical equation represents the combustion of hydrogen and oxygen to form water, adhering to mass conservation. It is foundational in chemistry, with applications in energy production and education.\\\"\\n    }\\n}\\n```\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"category\\\"<|>\\\"This balanced chemical equation represents the combustion of hydrogen and oxygen to form water, adhering to mass conservation. It is foundational in chemistry, with applications in energy production and education.\\\")##\\n(\\\"entity\\\"<|>\\\"Hydrogen (H₂)\\\"<|>\\\"category\\\"<|>\\\"Diatomic hydrogen molecule, a reactant in the combustion equation, fundamental in chemical reactions and energy studies.\\\")##\\n(\\\"entity\\\"<|>\\\"Oxygen (O₂)\\\"<|>\\\"category\\\"<|>\\\"Diatomic oxygen molecule, a reactant in the combustion equation, essential for combustion and respiration processes.\\\")##\\n(\\\"entity\\\"<|>\\\"Water (H₂O)\\\"<|>\\\"category\\\"<|>\\\"The product of the combustion equation, a vital molecule for life and industrial applications.\\\")##\\n(\\\"entity\\\"<|>\\\"Stoichiometry\\\"<|>\\\"category\\\"<|>\\\"The mathematical relationship between reactants and products in a chemical reaction, exemplified by the combustion equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Thermodynamics\\\"<|>\\\"category\\\"<|>\\\"The study of energy changes in reactions, relevant to the exothermic nature of the combustion equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Hydrogen Fuel Technology\\\"<|>\\\"category\\\"<|>\\\"An application of the combustion equation, focusing on clean energy production.\\\")##\\n(\\\"relationship\\\"<|>\\\"Hydrogen (H₂)\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"Hydrogen is a reactant in the combustion equation, playing a key role in the reaction.\\\"<|>\\\"reactant, chemical reaction\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Oxygen (O₂)\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"Oxygen is a reactant in the combustion equation, essential for the reaction to occur.\\\"<|>\\\"reactant, combustion\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Water (H₂O)\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"Water is the product of the combustion equation, formed from hydrogen and oxygen.\\\"<|>\\\"product, synthesis\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Stoichiometry\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"The equation is a prime example of stoichiometric principles, balancing reactants and products.\\\"<|>\\\"mathematical balance, chemical ratios\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Thermodynamics\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"The equation illustrates enthalpy change and energy release, key concepts in thermodynamics.\\\"<|>\\\"energy release, exothermic reaction\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Fuel Technology\\\"<|>\\\"Hydrogen-Oxygen Combustion Equation\\\"<|>\\\"The equation underpins hydrogen fuel technology, showcasing its clean energy potential.\\\"<|>\\\"clean energy, practical application\\\"<|>7)##\\n(\\\"content_keywords\\\"<|>\\\"chemical reaction, stoichiometry, thermodynamics, clean energy, combustion\\\")<|COMPLETE|>\"}]\nMANY entities and relationships were missed in the last extraction.\n\n---Remember Steps---\n\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n---Output---\n\nAdd them below using the same format:"
    },
    "e46fff9c457be8abafe6272027360bbc": {
      "return": "(\"entity\"<|>\"Hydrogen\"<|>\"category\"<|>\"Hydrogen is a chemical element represented by the symbol H, involved in the chemical reaction as molecular hydrogen (H2), and plays a key role in energy production and environmental chemistry.\")##\n(\"entity\"<|>\"Oxygen\"<|>\"category\"<|>\"Oxygen is a chemical element represented by the symbol O, essential for combustion and respiration, and reacts with hydrogen to form water in the given equation.\")##\n(\"entity\"<|>\"Water\"<|>\"category\"<|>\"Water, represented by H2O, is the product of the reaction between hydrogen and oxygen, central to various natural processes and industrial applications.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the calculation of quantitative relationships of reactants and products in chemical reactions, demonstrated through balanced equations like 2 H2 + O2 → 2 H2O.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"category\"<|>\"A chemical reaction involves the transformation of reactants into products through the breaking and forming of chemical bonds, exemplified by the synthesis of water from hydrogen and oxygen.\")##\n(\"relationship\"<|>\"Hydrogen\"<|>\"Oxygen\"<|>\"Hydrogen and oxygen are primary reactants in the synthesis of water, combining in a precise stoichiometric ratio.\" <|>\"chemical interaction, stoichiometric balance\"<|>9)##\n(\"relationship\"<|>\"Hydrogen\"<|>\"Water\"<|>\"Hydrogen is a fundamental component of water molecules formed in this chemical reaction.\"<|>\"reactant to product, elemental composition\"<|>10)##\n(\"relationship\"<|>\"Oxygen\"<|>\"Water\"<|>\"Oxygen contributes to the molecular structure of water, playing a crucial role in its formation.\"<|>\"elemental contribution, chemical bonding\"<|>10)##\n(\"relationship\"<|>\"Stoichiometry\"<|>\"Chemical Reaction\"<|>\"Stoichiometry quantifies the proportions of reactants and products in a chemical reaction, ensuring conservation of mass and atomic balance.\"<|>\"reaction modeling, quantitative relationship\"<|>10)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, water synthesis, hydrogen, oxygen\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-f931182732fe87eaa439fb34fe3e6445",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "---Goal---\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\nUse English as output language.\n\n---Steps---\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n######################\n---Examples---\n######################\nExample 1:\n\nEntity_types: [person, technology, mission, organization, location]\nText:\n```\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\n\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \"If this tech can be understood...\" Taylor said, their voice quieter, \"It could change the game for us. For all of us.\"\n\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\n\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\n```\n\nOutput:\n(\"entity\"<|>\"Alex\"<|>\"person\"<|>\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\")##\n(\"entity\"<|>\"Taylor\"<|>\"person\"<|>\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\")##\n(\"entity\"<|>\"Jordan\"<|>\"person\"<|>\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\")##\n(\"entity\"<|>\"Cruz\"<|>\"person\"<|>\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\")##\n(\"entity\"<|>\"The Device\"<|>\"technology\"<|>\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\")##\n(\"relationship\"<|>\"Alex\"<|>\"Taylor\"<|>\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\"<|>\"power dynamics, perspective shift\"<|>7)##\n(\"relationship\"<|>\"Alex\"<|>\"Jordan\"<|>\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\"<|>\"shared goals, rebellion\"<|>6)##\n(\"relationship\"<|>\"Taylor\"<|>\"Jordan\"<|>\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\"<|>\"conflict resolution, mutual respect\"<|>8)##\n(\"relationship\"<|>\"Jordan\"<|>\"Cruz\"<|>\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\"<|>\"ideological conflict, rebellion\"<|>5)##\n(\"relationship\"<|>\"Taylor\"<|>\"The Device\"<|>\"Taylor shows reverence towards the device, indicating its importance and potential impact.\"<|>\"reverence, technological significance\"<|>9)##\n(\"content_keywords\"<|>\"power dynamics, ideological conflict, discovery, rebellion\")<|COMPLETE|>\n#############################\nExample 2:\n\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\nText:\n```\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\n\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\n\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\n\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\n```\n\nOutput:\n(\"entity\"<|>\"Global Tech Index\"<|>\"index\"<|>\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\")##\n(\"entity\"<|>\"Nexon Technologies\"<|>\"company\"<|>\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\")##\n(\"entity\"<|>\"Omega Energy\"<|>\"company\"<|>\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\")##\n(\"entity\"<|>\"Gold Futures\"<|>\"commodity\"<|>\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\")##\n(\"entity\"<|>\"Crude Oil\"<|>\"commodity\"<|>\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\")##\n(\"entity\"<|>\"Market Selloff\"<|>\"market_trend\"<|>\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\")##\n(\"entity\"<|>\"Federal Reserve Policy Announcement\"<|>\"economic_policy\"<|>\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\")##\n(\"relationship\"<|>\"Global Tech Index\"<|>\"Market Selloff\"<|>\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\"<|>\"market performance, investor sentiment\"<|>9)##\n(\"relationship\"<|>\"Nexon Technologies\"<|>\"Global Tech Index\"<|>\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\"<|>\"company impact, index movement\"<|>8)##\n(\"relationship\"<|>\"Gold Futures\"<|>\"Market Selloff\"<|>\"Gold prices rose as investors sought safe-haven assets during the market selloff.\"<|>\"market reaction, safe-haven investment\"<|>10)##\n(\"relationship\"<|>\"Federal Reserve Policy Announcement\"<|>\"Market Selloff\"<|>\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\"<|>\"interest rate impact, financial regulation\"<|>7)##\n(\"content_keywords\"<|>\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\")<|COMPLETE|>\n#############################\nExample 3:\n\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\nText:\n```\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\n```\n\nOutput:\n(\"entity\"<|>\"World Athletics Championship\"<|>\"event\"<|>\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\")##\n(\"entity\"<|>\"Tokyo\"<|>\"location\"<|>\"Tokyo is the host city of the World Athletics Championship.\")##\n(\"entity\"<|>\"Noah Carter\"<|>\"athlete\"<|>\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\")##\n(\"entity\"<|>\"100m Sprint Record\"<|>\"record\"<|>\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\")##\n(\"entity\"<|>\"Carbon-Fiber Spikes\"<|>\"equipment\"<|>\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\")##\n(\"entity\"<|>\"World Athletics Federation\"<|>\"organization\"<|>\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\")##\n(\"relationship\"<|>\"World Athletics Championship\"<|>\"Tokyo\"<|>\"The World Athletics Championship is being hosted in Tokyo.\"<|>\"event location, international competition\"<|>8)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"100m Sprint Record\"<|>\"Noah Carter set a new 100m sprint record at the championship.\"<|>\"athlete achievement, record-breaking\"<|>10)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"Carbon-Fiber Spikes\"<|>\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\"<|>\"athletic equipment, performance boost\"<|>7)##\n(\"relationship\"<|>\"World Athletics Federation\"<|>\"100m Sprint Record\"<|>\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\"<|>\"sports regulation, record certification\"<|>9)##\n(\"content_keywords\"<|>\"athletics, sprinting, record-breaking, sports technology, competition\")<|COMPLETE|>\n#############################\n\n#############################\n---Real Data---\n######################\nEntity_types: [organization,person,geo,event,category]\nText:\nMathematical Equation Analysis:\nEquation: $$\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\n$$\nFormat: latex\n\nMathematical Analysis: The given equation, $ 2 H_2 + O_2 \\rightarrow 2 H_2O $, represents a balanced stoichiometric chemical reaction describing the synthesis of water from molecular hydrogen ($ H_2 $) and molecular oxygen ($ O_2 $). Mathematically, this equation demonstrates conservation of mass and atomic balance, where the number of atoms for each element is equal on both sides of the reaction arrow. The coefficients (2 for $ H_2 $, 1 for $ O_2 $, and 2 for $ H_2O $) indicate the molar ratios in which the reactants combine to form the products. This involves linear integer relationships, aligning with systems of equations used in stoichiometry. In the context of chemical thermodynamics and reaction kinetics, this equation quantifies the proportions required for complete combustion or electrochemical reactions involving hydrogen and oxygen. It relates to broader mathematical concepts such as proportionality, conservation laws, and matrix-based methods for solving reaction networks. Practically, it underpins calculations in fuel cell technology, rocket propulsion, and environmental chemistry, particularly in modeling clean energy processes like hydrogen combustion.\n######################\nOutput:"
    },
    "341c11f2c95ab3b98b533a6ff6531b9b": {
      "return": "(\"entity\"<|>\"Hydrogen\"<|>\"category\"<|>\"Hydrogen is a chemical element represented by the symbol H. In this context, it appears as molecular hydrogen (H₂), a key reactant in the synthesis of water and important in energy production and environmental chemistry.\")##\n(\"entity\"<|>\"Oxygen\"<|>\"category\"<|>\"Oxygen is a chemical element represented by the symbol O. It appears here as molecular oxygen (O₂) and reacts with hydrogen to form water. Oxygen is essential for combustion and respiration processes.\")##\n(\"entity\"<|>\"Water\"<|>\"category\"<|>\"Water, represented by the molecule H₂O, is the product of the reaction between hydrogen and oxygen. It plays a central role in natural systems and industrial applications such as fuel cells and rocket propulsion.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the mathematical analysis of chemical reactions, specifically the quantitative relationships between reactants and products. It ensures conservation of mass and atomic balance, as demonstrated in the balanced equation 2 H₂ + O₂ → 2 H₂O.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"category\"<|>\"A chemical reaction involves the transformation of substances through the breaking and forming of chemical bonds. This specific reaction represents the synthesis of water from hydrogen and oxygen gases under conditions governed by thermodynamics and kinetics.\")##\n(\"entity\"<|>\"Fuel Cell Technology\"<|>\"category\"<|>\"Fuel cell technology utilizes the reaction between hydrogen and oxygen to generate electricity, producing water as a byproduct. It is relevant to clean energy and electrochemical applications discussed in the text.\")##\n(\"entity\"<|>\"Rocket Propulsion\"<|>\"category\"<|>\"Rocket propulsion involves the use of exothermic chemical reactions, such as hydrogen-oxygen combustion, to produce thrust. The stoichiometric relationship in the given equation supports calculations used in this field.\")##\n(\"entity\"<|>\"Environmental Chemistry\"<|>\"category\"<|>\"Environmental chemistry studies chemical processes occurring in natural environments. The hydrogen-oxygen reaction modeling presented in the text has relevance in understanding emissions, atmospheric reactions, and clean energy impact.\")##\n(\"entity\"<|>\"Conservation Of Mass\"<|>\"category\"<|>\"The principle of conservation of mass states that matter cannot be created or destroyed in a chemical reaction. The balanced equation demonstrates this principle by maintaining equal numbers of atoms on both sides of the reaction arrow.\")##\n(\"entity\"<|>\"Reaction Kinetics\"<|>\"category\"<|>\"Reaction kinetics is the study of the rates at which chemical reactions occur. The given equation relates to this field when considering how quickly hydrogen and oxygen combine to form water under different conditions.\")##\n(\"entity\"<|>\"Chemical Thermodynamics\"<|>\"category\"<|>\"Chemical thermodynamics deals with the energy changes during chemical reactions. The hydrogen-oxygen reaction described in the text is analyzed within this framework to understand its energetic feasibility and efficiency.\")##\n(\"relationship\"<|>\"Hydrogen\"<|>\"Oxygen\"<|>\"Hydrogen and oxygen are primary reactants in the synthesis of water, combining in a precise stoichiometric ratio (2:1) dictated by the balanced chemical equation.\"<|>\"chemical interaction, stoichiometric balance\"<|>9)##\n(\"relationship\"<|>\"Hydrogen\"<|>\"Water\"<|>\"Hydrogen is a fundamental component of water molecules formed in this reaction; each water molecule contains two hydrogen atoms derived from the reactant hydrogen gas.\"<|>\"reactant to product, elemental composition\"<|>10)##\n(\"relationship\"<|>\"Oxygen\"<|>\"Water\"<|>\"Oxygen contributes one atom per water molecule, playing an essential role in the formation of H₂O from O₂ and H₂ according to the balanced equation.\"<|>\"elemental contribution, chemical bonding\"<|>10)##\n(\"relationship\"<|>\"Stoichiometry\"<|>\"Chemical Reaction\"<|>\"Stoichiometry quantifies the proportions of reactants and products in a chemical reaction, ensuring conservation of mass and atomic balance as seen in the equation 2 H₂ + O₂ → 2 H₂O.\"<|>\"reaction modeling, quantitative relationship\"<|>10)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Water\"<|>\"The synthesis of water is the outcome of the chemical reaction between hydrogen and oxygen gases, making water a direct product of this transformation.\"<|>\"reaction outcome, product formation\"<|>9)##\n(\"relationship\"<|>\"Fuel Cell Technology\"<|>\"Hydrogen\"<|>\"Fuel cell technology relies on hydrogen as a reactant to generate electricity through electrochemical reactions with oxygen, producing water as a byproduct.\"<|>\"energy generation, electrochemical process\"<|>8)##\n(\"relationship\"<|>\"Rocket Propulsion\"<|>\"Chemical Reaction\"<|>\"Rocket propulsion systems utilize the energy released from the chemical reaction between hydrogen and oxygen to generate thrust for space exploration vehicles.\"<|>\"propulsion mechanism, exothermic reaction\"<|>9)##\n(\"relationship\"<|>\"Environmental Chemistry\"<|>\"Water\"<|>\"Environmental chemistry examines the role of water in ecosystems, including its formation via reactions like hydrogen-oxygen combustion and its implications for sustainability.\"<|>\"ecological impact, sustainability\"<|>7)##\n(\"relationship\"<|>\"Conservation Of Mass\"<|>\"Stoichiometry\"<|>\"The principle of conservation of mass underpins stoichiometry, ensuring that the number of atoms remains constant before and after a chemical reaction.\"<|>\"scientific law, chemical balance\"<|>10)##\n(\"relationship\"<|>\"Reaction Kinetics\"<|>\"Chemical Thermodynamics\"<|>\"Both reaction kinetics and chemical thermodynamics analyze the hydrogen-oxygen reaction, with kinetics focusing on reaction speed and thermodynamics on energy changes and feasibility.\"<|>\"reaction analysis, energy dynamics\"<|>8)##\n(\"relationship\"<|>\"Reaction Kinetics\"<|>\"Chemical Reaction\"<|>\"Reaction kinetics studies how fast the chemical reaction between hydrogen and oxygen occurs under various conditions, influencing practical applications like engine design.\"<|>\"rate analysis, practical application\"<|>8)##\n(\"relationship\"<|>\"Chemical Thermodynamics\"<|>\"Chemical Reaction\"<|>\"Chemical thermodynamics evaluates the energy transformations and stability of products in the reaction between hydrogen and oxygen, determining whether the reaction is spontaneous.\"<|>\"energy evaluation, reaction feasibility\"<|>8)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, hydrogen-oxygen reaction, water synthesis, conservation of mass, fuel cells, rocket propulsion, environmental chemistry\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-f931182732fe87eaa439fb34fe3e6445",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "[{\"role\": \"user\", \"content\": \"---Goal---\\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\\nUse English as output language.\\n\\n---Steps---\\n1. Identify all entities. For each identified entity, extract the following information:\\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\\n- entity_type: One of the following types: [organization,person,geo,event,category]\\n- entity_description: Comprehensive description of the entity's attributes and activities\\nFormat each entity as (\\\"entity\\\"<|><entity_name><|><entity_type><|><entity_description>)\\n\\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\\nFor each pair of related entities, extract the following information:\\n- source_entity: name of the source entity, as identified in step 1\\n- target_entity: name of the target entity, as identified in step 1\\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\\nFormat each relationship as (\\\"relationship\\\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\\n\\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\\nFormat the content-level key words as (\\\"content_keywords\\\"<|><high_level_keywords>)\\n\\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\\n\\n5. When finished, output <|COMPLETE|>\\n\\n######################\\n---Examples---\\n######################\\nExample 1:\\n\\nEntity_types: [person, technology, mission, organization, location]\\nText:\\n```\\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\\n\\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \\\"If this tech can be understood...\\\" Taylor said, their voice quieter, \\\"It could change the game for us. For all of us.\\\"\\n\\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\\n\\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Alex\\\"<|>\\\"person\\\"<|>\\\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"Taylor\\\"<|>\\\"person\\\"<|>\\\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\\\")##\\n(\\\"entity\\\"<|>\\\"Jordan\\\"<|>\\\"person\\\"<|>\\\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\\\")##\\n(\\\"entity\\\"<|>\\\"Cruz\\\"<|>\\\"person\\\"<|>\\\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"The Device\\\"<|>\\\"technology\\\"<|>\\\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\\\")##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Taylor\\\"<|>\\\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\\\"<|>\\\"power dynamics, perspective shift\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Jordan\\\"<|>\\\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\\\"<|>\\\"shared goals, rebellion\\\"<|>6)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"Jordan\\\"<|>\\\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\\\"<|>\\\"conflict resolution, mutual respect\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Jordan\\\"<|>\\\"Cruz\\\"<|>\\\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\\\"<|>\\\"ideological conflict, rebellion\\\"<|>5)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"The Device\\\"<|>\\\"Taylor shows reverence towards the device, indicating its importance and potential impact.\\\"<|>\\\"reverence, technological significance\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"power dynamics, ideological conflict, discovery, rebellion\\\")<|COMPLETE|>\\n#############################\\nExample 2:\\n\\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\\nText:\\n```\\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\\n\\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\\n\\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\\n\\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Global Tech Index\\\"<|>\\\"index\\\"<|>\\\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\\\")##\\n(\\\"entity\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"company\\\"<|>\\\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\\\")##\\n(\\\"entity\\\"<|>\\\"Omega Energy\\\"<|>\\\"company\\\"<|>\\\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\\\")##\\n(\\\"entity\\\"<|>\\\"Gold Futures\\\"<|>\\\"commodity\\\"<|>\\\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\\\")##\\n(\\\"entity\\\"<|>\\\"Crude Oil\\\"<|>\\\"commodity\\\"<|>\\\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\\\")##\\n(\\\"entity\\\"<|>\\\"Market Selloff\\\"<|>\\\"market_trend\\\"<|>\\\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\\\")##\\n(\\\"entity\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"economic_policy\\\"<|>\\\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\\\")##\\n(\\\"relationship\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Market Selloff\\\"<|>\\\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\\\"<|>\\\"market performance, investor sentiment\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\\\"<|>\\\"company impact, index movement\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Gold Futures\\\"<|>\\\"Market Selloff\\\"<|>\\\"Gold prices rose as investors sought safe-haven assets during the market selloff.\\\"<|>\\\"market reaction, safe-haven investment\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"Market Selloff\\\"<|>\\\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\\\"<|>\\\"interest rate impact, financial regulation\\\"<|>7)##\\n(\\\"content_keywords\\\"<|>\\\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\\\")<|COMPLETE|>\\n#############################\\nExample 3:\\n\\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\\nText:\\n```\\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"event\\\"<|>\\\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\\\")##\\n(\\\"entity\\\"<|>\\\"Tokyo\\\"<|>\\\"location\\\"<|>\\\"Tokyo is the host city of the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"Noah Carter\\\"<|>\\\"athlete\\\"<|>\\\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"record\\\"<|>\\\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\\\")##\\n(\\\"entity\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"equipment\\\"<|>\\\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\\\")##\\n(\\\"entity\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"organization\\\"<|>\\\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\\\")##\\n(\\\"relationship\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"Tokyo\\\"<|>\\\"The World Athletics Championship is being hosted in Tokyo.\\\"<|>\\\"event location, international competition\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"Noah Carter set a new 100m sprint record at the championship.\\\"<|>\\\"athlete achievement, record-breaking\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\\\"<|>\\\"athletic equipment, performance boost\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\\\"<|>\\\"sports regulation, record certification\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"athletics, sprinting, record-breaking, sports technology, competition\\\")<|COMPLETE|>\\n#############################\\n\\n#############################\\n---Real Data---\\n######################\\nEntity_types: [organization,person,geo,event,category]\\nText:\\nMathematical Equation Analysis:\\nEquation: $$\\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\\n$$\\nFormat: latex\\n\\nMathematical Analysis: The given equation, $ 2 H_2 + O_2 \\\\rightarrow 2 H_2O $, represents a balanced stoichiometric chemical reaction describing the synthesis of water from molecular hydrogen ($ H_2 $) and molecular oxygen ($ O_2 $). Mathematically, this equation demonstrates conservation of mass and atomic balance, where the number of atoms for each element is equal on both sides of the reaction arrow. The coefficients (2 for $ H_2 $, 1 for $ O_2 $, and 2 for $ H_2O $) indicate the molar ratios in which the reactants combine to form the products. This involves linear integer relationships, aligning with systems of equations used in stoichiometry. In the context of chemical thermodynamics and reaction kinetics, this equation quantifies the proportions required for complete combustion or electrochemical reactions involving hydrogen and oxygen. It relates to broader mathematical concepts such as proportionality, conservation laws, and matrix-based methods for solving reaction networks. Practically, it underpins calculations in fuel cell technology, rocket propulsion, and environmental chemistry, particularly in modeling clean energy processes like hydrogen combustion.\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"Hydrogen\\\"<|>\\\"category\\\"<|>\\\"Hydrogen is a chemical element represented by the symbol H, involved in the chemical reaction as molecular hydrogen (H2), and plays a key role in energy production and environmental chemistry.\\\")##\\n(\\\"entity\\\"<|>\\\"Oxygen\\\"<|>\\\"category\\\"<|>\\\"Oxygen is a chemical element represented by the symbol O, essential for combustion and respiration, and reacts with hydrogen to form water in the given equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Water\\\"<|>\\\"category\\\"<|>\\\"Water, represented by H2O, is the product of the reaction between hydrogen and oxygen, central to various natural processes and industrial applications.\\\")##\\n(\\\"entity\\\"<|>\\\"Stoichiometry\\\"<|>\\\"category\\\"<|>\\\"Stoichiometry refers to the calculation of quantitative relationships of reactants and products in chemical reactions, demonstrated through balanced equations like 2 H2 + O2 → 2 H2O.\\\")##\\n(\\\"entity\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"category\\\"<|>\\\"A chemical reaction involves the transformation of reactants into products through the breaking and forming of chemical bonds, exemplified by the synthesis of water from hydrogen and oxygen.\\\")##\\n(\\\"relationship\\\"<|>\\\"Hydrogen\\\"<|>\\\"Oxygen\\\"<|>\\\"Hydrogen and oxygen are primary reactants in the synthesis of water, combining in a precise stoichiometric ratio.\\\" <|>\\\"chemical interaction, stoichiometric balance\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen\\\"<|>\\\"Water\\\"<|>\\\"Hydrogen is a fundamental component of water molecules formed in this chemical reaction.\\\"<|>\\\"reactant to product, elemental composition\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Oxygen\\\"<|>\\\"Water\\\"<|>\\\"Oxygen contributes to the molecular structure of water, playing a crucial role in its formation.\\\"<|>\\\"elemental contribution, chemical bonding\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Stoichiometry\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Stoichiometry quantifies the proportions of reactants and products in a chemical reaction, ensuring conservation of mass and atomic balance.\\\"<|>\\\"reaction modeling, quantitative relationship\\\"<|>10)##\\n(\\\"content_keywords\\\"<|>\\\"chemical reaction, stoichiometry, water synthesis, hydrogen, oxygen\\\")<|COMPLETE|>\"}]\nMANY entities and relationships were missed in the last extraction.\n\n---Remember Steps---\n\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n---Output---\n\nAdd them below using the same format:"
    },
    "0dd3e075319e083bff6f1cd16541fe3e": {
      "return": "(\"entity\"<|>\"Hydrogen Gas\"<|>\"category\"<|>\"Hydrogen gas (H₂) is a diatomic molecule consisting of two hydrogen atoms. It is a key reactant in the synthesis of water and plays a significant role in various industrial processes, including fuel cells and rocket propulsion.\")##\n(\"entity\"<|>\"Oxygen Gas\"<|>\"category\"<|>\"Oxygen gas (O₂) is a diatomic molecule composed of two oxygen atoms. It acts as an oxidizing agent in the reaction to form water and is essential for combustion and respiration processes.\")##\n(\"entity\"<|>\"Water\"<|>\"category\"<|>\"Water (H₂O) is a compound formed by the chemical reaction between hydrogen and oxygen. It is essential for life and widely used in industrial applications such as cooling, solvent use, and energy production.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the quantitative relationship between reactants and products in a chemical reaction. It ensures conservation of mass and is foundational in predicting yields and proportions in chemical processes.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"event\"<|>\"The reaction $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ represents the synthesis of water from hydrogen and oxygen gases. It is a balanced equation that follows the law of conservation of mass.\")##\n(\"relationship\"<|>\"Hydrogen Gas\"<|>\"Chemical Reaction\"<|>\"Hydrogen gas is a primary reactant in the chemical reaction that produces water.\" <|>\"chemical composition, reactant role\"<|>10)##\n(\"relationship\"<|>\"Oxygen Gas\"<|>\"Chemical Reaction\"<|>\"Oxygen gas reacts with hydrogen to form water in the described chemical reaction.\" <|>\"oxidation, reactant role\"<|>10)##\n(\"relationship\"<|>\"Water\"<|>\"Chemical Reaction\"<|>\"Water is the product formed from the reaction between hydrogen and oxygen gases.\" <|>\"chemical synthesis, product formation\"<|>10)##\n(\"relationship\"<|>\"Stoichiometry\"<|>\"Chemical Reaction\"<|>\"Stoichiometry governs the molar ratios of reactants and products in the balanced chemical reaction.\" <|>\"quantitative analysis, conservation laws\"<|>9)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, synthesis, conservation of mass, water formation\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-b4e4cd7fa61e43376573d164e2730e41",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "---Goal---\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\nUse English as output language.\n\n---Steps---\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n######################\n---Examples---\n######################\nExample 1:\n\nEntity_types: [person, technology, mission, organization, location]\nText:\n```\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\n\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \"If this tech can be understood...\" Taylor said, their voice quieter, \"It could change the game for us. For all of us.\"\n\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\n\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\n```\n\nOutput:\n(\"entity\"<|>\"Alex\"<|>\"person\"<|>\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\")##\n(\"entity\"<|>\"Taylor\"<|>\"person\"<|>\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\")##\n(\"entity\"<|>\"Jordan\"<|>\"person\"<|>\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\")##\n(\"entity\"<|>\"Cruz\"<|>\"person\"<|>\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\")##\n(\"entity\"<|>\"The Device\"<|>\"technology\"<|>\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\")##\n(\"relationship\"<|>\"Alex\"<|>\"Taylor\"<|>\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\"<|>\"power dynamics, perspective shift\"<|>7)##\n(\"relationship\"<|>\"Alex\"<|>\"Jordan\"<|>\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\"<|>\"shared goals, rebellion\"<|>6)##\n(\"relationship\"<|>\"Taylor\"<|>\"Jordan\"<|>\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\"<|>\"conflict resolution, mutual respect\"<|>8)##\n(\"relationship\"<|>\"Jordan\"<|>\"Cruz\"<|>\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\"<|>\"ideological conflict, rebellion\"<|>5)##\n(\"relationship\"<|>\"Taylor\"<|>\"The Device\"<|>\"Taylor shows reverence towards the device, indicating its importance and potential impact.\"<|>\"reverence, technological significance\"<|>9)##\n(\"content_keywords\"<|>\"power dynamics, ideological conflict, discovery, rebellion\")<|COMPLETE|>\n#############################\nExample 2:\n\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\nText:\n```\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\n\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\n\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\n\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\n```\n\nOutput:\n(\"entity\"<|>\"Global Tech Index\"<|>\"index\"<|>\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\")##\n(\"entity\"<|>\"Nexon Technologies\"<|>\"company\"<|>\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\")##\n(\"entity\"<|>\"Omega Energy\"<|>\"company\"<|>\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\")##\n(\"entity\"<|>\"Gold Futures\"<|>\"commodity\"<|>\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\")##\n(\"entity\"<|>\"Crude Oil\"<|>\"commodity\"<|>\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\")##\n(\"entity\"<|>\"Market Selloff\"<|>\"market_trend\"<|>\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\")##\n(\"entity\"<|>\"Federal Reserve Policy Announcement\"<|>\"economic_policy\"<|>\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\")##\n(\"relationship\"<|>\"Global Tech Index\"<|>\"Market Selloff\"<|>\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\"<|>\"market performance, investor sentiment\"<|>9)##\n(\"relationship\"<|>\"Nexon Technologies\"<|>\"Global Tech Index\"<|>\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\"<|>\"company impact, index movement\"<|>8)##\n(\"relationship\"<|>\"Gold Futures\"<|>\"Market Selloff\"<|>\"Gold prices rose as investors sought safe-haven assets during the market selloff.\"<|>\"market reaction, safe-haven investment\"<|>10)##\n(\"relationship\"<|>\"Federal Reserve Policy Announcement\"<|>\"Market Selloff\"<|>\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\"<|>\"interest rate impact, financial regulation\"<|>7)##\n(\"content_keywords\"<|>\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\")<|COMPLETE|>\n#############################\nExample 3:\n\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\nText:\n```\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\n```\n\nOutput:\n(\"entity\"<|>\"World Athletics Championship\"<|>\"event\"<|>\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\")##\n(\"entity\"<|>\"Tokyo\"<|>\"location\"<|>\"Tokyo is the host city of the World Athletics Championship.\")##\n(\"entity\"<|>\"Noah Carter\"<|>\"athlete\"<|>\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\")##\n(\"entity\"<|>\"100m Sprint Record\"<|>\"record\"<|>\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\")##\n(\"entity\"<|>\"Carbon-Fiber Spikes\"<|>\"equipment\"<|>\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\")##\n(\"entity\"<|>\"World Athletics Federation\"<|>\"organization\"<|>\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\")##\n(\"relationship\"<|>\"World Athletics Championship\"<|>\"Tokyo\"<|>\"The World Athletics Championship is being hosted in Tokyo.\"<|>\"event location, international competition\"<|>8)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"100m Sprint Record\"<|>\"Noah Carter set a new 100m sprint record at the championship.\"<|>\"athlete achievement, record-breaking\"<|>10)##\n(\"relationship\"<|>\"Noah Carter\"<|>\"Carbon-Fiber Spikes\"<|>\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\"<|>\"athletic equipment, performance boost\"<|>7)##\n(\"relationship\"<|>\"World Athletics Federation\"<|>\"100m Sprint Record\"<|>\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\"<|>\"sports regulation, record certification\"<|>9)##\n(\"content_keywords\"<|>\"athletics, sprinting, record-breaking, sports technology, competition\")<|COMPLETE|>\n#############################\n\n#############################\n---Real Data---\n######################\nEntity_types: [organization,person,geo,event,category]\nText:\nMathematical Equation Analysis:\nEquation: $$\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\n$$\nFormat: latex\n\nMathematical Analysis: The given equation, $ 2 H_2 + O_2 \\rightarrow 2 H_2O $, represents a stoichiometric relationship describing the chemical reaction between hydrogen gas ($H_2$) and oxygen gas ($O_2$) to form water ($H_2O$). Mathematically, it is a balanced linear combination of molecular quantities, where coefficients (2 for $H_2$, 1 for $O_2$, and 2 for $H_2O$) ensure conservation of mass and atoms across both sides of the equation. Each term represents a molecule or compound involved in the reaction, with the numerical coefficients denoting molar ratios. This equation reflects the law of conservation of mass, which states that the total number of atoms of each element must remain constant before and after the reaction. The operations used include scalar multiplication and addition, reflecting the principles of linear algebra applied to chemical equations. In theoretical chemistry, this equation serves as a foundational example of stoichiometry and is essential for calculating reactant amounts, yields, and energy changes in combustion and electrochemical processes. It also connects to thermodynamics through enthalpy calculations and to reaction kinetics by defining the molar proportions needed for the reaction to proceed optimally. Practically, this equation models the synthesis of water from its elemental components, which is crucial in fuel cell technology, rocket propulsion, and industrial chemical synthesis.\n######################\nOutput:"
    },
    "f59a85093623a3cb69ad83d952efeeb9": {
      "return": "(\"entity\"<|>\"Hydrogen Gas\"<|>\"category\"<|>\"Hydrogen gas (H₂) is a diatomic molecule consisting of two hydrogen atoms. It is a key reactant in the synthesis of water and plays a significant role in various industrial processes, including fuel cells and rocket propulsion.\")##\n(\"entity\"<|>\"Oxygen Gas\"<|>\"category\"<|>\"Oxygen gas (O₂) is a diatomic molecule composed of two oxygen atoms. It acts as an oxidizing agent in the reaction to form water and is essential for combustion and respiration processes.\")##\n(\"entity\"<|>\"Water\"<|>\"category\"<|>\"Water (H₂O) is a compound formed by the chemical reaction between hydrogen and oxygen. It is essential for life and widely used in industrial applications such as cooling, solvent use, and energy production.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the quantitative relationship between reactants and products in a chemical reaction. It ensures conservation of mass and is foundational in predicting yields and proportions in chemical processes.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"event\"<|>\"The reaction $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ represents the synthesis of water from hydrogen and oxygen gases. It is a balanced equation that follows the law of conservation of mass.\")##\n(\"entity\"<|>\"Law of Conservation of Mass\"<|>\"category\"<|>\"The law of conservation of mass states that matter cannot be created or destroyed in a chemical reaction, ensuring the number of atoms remains constant before and after the reaction.\")##\n(\"entity\"<|>\"Fuel Cell Technology\"<|>\"category\"<|>\"Fuel cell technology utilizes the reaction between hydrogen and oxygen to generate electricity, producing water as a byproduct. It is a clean energy solution with applications in transportation and power generation.\")##\n(\"entity\"<|>\"Rocket Propulsion\"<|>\"category\"<|>\"Rocket propulsion systems use the combustion of hydrogen and oxygen to produce thrust. The reaction $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ models the energy-releasing process central to spacecraft launch systems.\")##\n(\"entity\"<|>\"Industrial Chemical Synthesis\"<|>\"category\"<|>\"Industrial chemical synthesis involves large-scale production of compounds like water through controlled reactions. It relies on stoichiometric calculations to optimize yield and efficiency.\")##\n(\"entity\"<|>\"Linear Algebra\"<|>\"category\"<|>\"Linear algebra provides mathematical tools for modeling and solving systems of equations, applicable to balancing chemical reactions through scalar multiplication and addition.\")##\n(\"entity\"<|>\"Thermodynamics\"<|>\"category\"<|>\"Thermodynamics is the study of energy transformations in chemical systems. It connects to the reaction $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ through enthalpy calculations and energy change analysis.\")##\n(\"entity\"<|>\"Reaction Kinetics\"<|>\"category\"<|>\"Reaction kinetics studies the rates and mechanisms of chemical reactions. It relates to the molar proportions defined in the equation $ 2 H_2 + O_2 \\rightarrow 2 H_2O $, influencing how quickly the reaction proceeds.\")##\n(\"relationship\"<|>\"Hydrogen Gas\"<|>\"Chemical Reaction\"<|>\"Hydrogen gas is a primary reactant in the chemical reaction that produces water.\" <|>\"chemical composition, reactant role\"<|>10)##\n(\"relationship\"<|>\"Oxygen Gas\"<|>\"Chemical Reaction\"<|>\"Oxygen gas reacts with hydrogen to form water in the described chemical reaction.\" <|>\"oxidation, reactant role\"<|>10)##\n(\"relationship\"<|>\"Water\"<|>\"Chemical Reaction\"<|>\"Water is the product formed from the reaction between hydrogen and oxygen gases.\" <|>\"chemical synthesis, product formation\"<|>10)##\n(\"relationship\"<|>\"Stoichiometry\"<|>\"Chemical Reaction\"<|>\"Stoichiometry governs the molar ratios of reactants and products in the balanced chemical reaction.\" <|>\"quantitative analysis, conservation laws\"<|>9)##\n(\"relationship\"<|>\"Law of Conservation of Mass\"<|>\"Chemical Reaction\"<|>\"The law of conservation of mass ensures that the total number of atoms remains unchanged during the reaction, validating its balance.\" <|>\"mass balance, chemical law\"<|>9)##\n(\"relationship\"<|>\"Fuel Cell Technology\"<|>\"Hydrogen Gas\"<|>\"Fuel cell technology uses hydrogen gas as a primary input to generate electricity through the reaction with oxygen.\" <|>\"energy application, hydrogen usage\"<|>8)##\n(\"relationship\"<|>\"Fuel Cell Technology\"<|>\"Oxygen Gas\"<|>\"Fuel cells require oxygen gas to complete the electrochemical reaction that produces electricity and water.\" <|>\"oxidation process, energy system\"<|>8)##\n(\"relationship\"<|>\"Rocket Propulsion\"<|>\"Hydrogen Gas\"<|>\"Rocket engines use hydrogen gas as a high-energy fuel source in combination with oxygen for propulsion.\" <|>\"fuel source, aerospace application\"<|>9)##\n(\"relationship\"<|>\"Rocket Propulsion\"<|>\"Oxygen Gas\"<|>\"Oxygen gas serves as the oxidizer in rocket propulsion systems that burn hydrogen fuel.\" <|>\"combustion support, aerospace\"<|>9)##\n(\"relationship\"<|>\"Industrial Chemical Synthesis\"<|>\"Chemical Reaction\"<|>\"Industrial synthesis processes implement the reaction $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ at scale for water production and related applications.\" <|>\"large-scale chemistry, manufacturing\"<|>7)##\n(\"relationship\"<|>\"Linear Algebra\"<|>\"Chemical Reaction\"<|>\"Linear algebra principles are applied to balance chemical equations like $ 2 H_2 + O_2 \\rightarrow 2 H_2O $ using matrix operations and scalar coefficients.\" <|>\"mathematical modeling, equation balancing\"<|>7)##\n(\"relationship\"<|>\"Thermodynamics\"<|>\"Chemical Reaction\"<|>\"Thermodynamic principles determine the energy changes and spontaneity of the reaction between hydrogen and oxygen to form water.\" <|>\"energy transfer, enthalpy change\"<|>8)##\n(\"relationship\"<|>\"Reaction Kinetics\"<|>\"Chemical Reaction\"<|>\"Reaction kinetics defines the rate and mechanism of the water synthesis reaction based on molar proportions and activation energy.\" <|>\"reaction speed, chemical mechanism\"<|>8)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, synthesis, conservation of mass, hydrogen, oxygen, water, thermodynamics, kinetics, industrial applications\")<|COMPLETE|>",
      "cache_type": "extract",
      "chunk_id": "chunk-b4e4cd7fa61e43376573d164e2730e41",
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "[{\"role\": \"user\", \"content\": \"---Goal---\\nGiven a text document that is potentially relevant to this activity and a list of entity types, identify all entities of those types from the text and all relationships among the identified entities.\\nUse English as output language.\\n\\n---Steps---\\n1. Identify all entities. For each identified entity, extract the following information:\\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\\n- entity_type: One of the following types: [organization,person,geo,event,category]\\n- entity_description: Comprehensive description of the entity's attributes and activities\\nFormat each entity as (\\\"entity\\\"<|><entity_name><|><entity_type><|><entity_description>)\\n\\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\\nFor each pair of related entities, extract the following information:\\n- source_entity: name of the source entity, as identified in step 1\\n- target_entity: name of the target entity, as identified in step 1\\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\\nFormat each relationship as (\\\"relationship\\\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\\n\\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\\nFormat the content-level key words as (\\\"content_keywords\\\"<|><high_level_keywords>)\\n\\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\\n\\n5. When finished, output <|COMPLETE|>\\n\\n######################\\n---Examples---\\n######################\\nExample 1:\\n\\nEntity_types: [person, technology, mission, organization, location]\\nText:\\n```\\nwhile Alex clenched his jaw, the buzz of frustration dull against the backdrop of Taylor's authoritarian certainty. It was this competitive undercurrent that kept him alert, the sense that his and Jordan's shared commitment to discovery was an unspoken rebellion against Cruz's narrowing vision of control and order.\\n\\nThen Taylor did something unexpected. They paused beside Jordan and, for a moment, observed the device with something akin to reverence. \\\"If this tech can be understood...\\\" Taylor said, their voice quieter, \\\"It could change the game for us. For all of us.\\\"\\n\\nThe underlying dismissal earlier seemed to falter, replaced by a glimpse of reluctant respect for the gravity of what lay in their hands. Jordan looked up, and for a fleeting heartbeat, their eyes locked with Taylor's, a wordless clash of wills softening into an uneasy truce.\\n\\nIt was a small transformation, barely perceptible, but one that Alex noted with an inward nod. They had all been brought here by different paths\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Alex\\\"<|>\\\"person\\\"<|>\\\"Alex is a character who experiences frustration and is observant of the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"Taylor\\\"<|>\\\"person\\\"<|>\\\"Taylor is portrayed with authoritarian certainty and shows a moment of reverence towards a device, indicating a change in perspective.\\\")##\\n(\\\"entity\\\"<|>\\\"Jordan\\\"<|>\\\"person\\\"<|>\\\"Jordan shares a commitment to discovery and has a significant interaction with Taylor regarding a device.\\\")##\\n(\\\"entity\\\"<|>\\\"Cruz\\\"<|>\\\"person\\\"<|>\\\"Cruz is associated with a vision of control and order, influencing the dynamics among other characters.\\\")##\\n(\\\"entity\\\"<|>\\\"The Device\\\"<|>\\\"technology\\\"<|>\\\"The Device is central to the story, with potential game-changing implications, and is revered by Taylor.\\\")##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Taylor\\\"<|>\\\"Alex is affected by Taylor's authoritarian certainty and observes changes in Taylor's attitude towards the device.\\\"<|>\\\"power dynamics, perspective shift\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Alex\\\"<|>\\\"Jordan\\\"<|>\\\"Alex and Jordan share a commitment to discovery, which contrasts with Cruz's vision.\\\"<|>\\\"shared goals, rebellion\\\"<|>6)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"Jordan\\\"<|>\\\"Taylor and Jordan interact directly regarding the device, leading to a moment of mutual respect and an uneasy truce.\\\"<|>\\\"conflict resolution, mutual respect\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Jordan\\\"<|>\\\"Cruz\\\"<|>\\\"Jordan's commitment to discovery is in rebellion against Cruz's vision of control and order.\\\"<|>\\\"ideological conflict, rebellion\\\"<|>5)##\\n(\\\"relationship\\\"<|>\\\"Taylor\\\"<|>\\\"The Device\\\"<|>\\\"Taylor shows reverence towards the device, indicating its importance and potential impact.\\\"<|>\\\"reverence, technological significance\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"power dynamics, ideological conflict, discovery, rebellion\\\")<|COMPLETE|>\\n#############################\\nExample 2:\\n\\nEntity_types: [company, index, commodity, market_trend, economic_policy, biological]\\nText:\\n```\\nStock markets faced a sharp downturn today as tech giants saw significant declines, with the Global Tech Index dropping by 3.4% in midday trading. Analysts attribute the selloff to investor concerns over rising interest rates and regulatory uncertainty.\\n\\nAmong the hardest hit, Nexon Technologies saw its stock plummet by 7.8% after reporting lower-than-expected quarterly earnings. In contrast, Omega Energy posted a modest 2.1% gain, driven by rising oil prices.\\n\\nMeanwhile, commodity markets reflected a mixed sentiment. Gold futures rose by 1.5%, reaching $2,080 per ounce, as investors sought safe-haven assets. Crude oil prices continued their rally, climbing to $87.60 per barrel, supported by supply constraints and strong demand.\\n\\nFinancial experts are closely watching the Federal Reserve's next move, as speculation grows over potential rate hikes. The upcoming policy announcement is expected to influence investor confidence and overall market stability.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"Global Tech Index\\\"<|>\\\"index\\\"<|>\\\"The Global Tech Index tracks the performance of major technology stocks and experienced a 3.4% decline today.\\\")##\\n(\\\"entity\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"company\\\"<|>\\\"Nexon Technologies is a tech company that saw its stock decline by 7.8% after disappointing earnings.\\\")##\\n(\\\"entity\\\"<|>\\\"Omega Energy\\\"<|>\\\"company\\\"<|>\\\"Omega Energy is an energy company that gained 2.1% in stock value due to rising oil prices.\\\")##\\n(\\\"entity\\\"<|>\\\"Gold Futures\\\"<|>\\\"commodity\\\"<|>\\\"Gold futures rose by 1.5%, indicating increased investor interest in safe-haven assets.\\\")##\\n(\\\"entity\\\"<|>\\\"Crude Oil\\\"<|>\\\"commodity\\\"<|>\\\"Crude oil prices rose to $87.60 per barrel due to supply constraints and strong demand.\\\")##\\n(\\\"entity\\\"<|>\\\"Market Selloff\\\"<|>\\\"market_trend\\\"<|>\\\"Market selloff refers to the significant decline in stock values due to investor concerns over interest rates and regulations.\\\")##\\n(\\\"entity\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"economic_policy\\\"<|>\\\"The Federal Reserve's upcoming policy announcement is expected to impact investor confidence and market stability.\\\")##\\n(\\\"relationship\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Market Selloff\\\"<|>\\\"The decline in the Global Tech Index is part of the broader market selloff driven by investor concerns.\\\"<|>\\\"market performance, investor sentiment\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Nexon Technologies\\\"<|>\\\"Global Tech Index\\\"<|>\\\"Nexon Technologies' stock decline contributed to the overall drop in the Global Tech Index.\\\"<|>\\\"company impact, index movement\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Gold Futures\\\"<|>\\\"Market Selloff\\\"<|>\\\"Gold prices rose as investors sought safe-haven assets during the market selloff.\\\"<|>\\\"market reaction, safe-haven investment\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Federal Reserve Policy Announcement\\\"<|>\\\"Market Selloff\\\"<|>\\\"Speculation over Federal Reserve policy changes contributed to market volatility and investor selloff.\\\"<|>\\\"interest rate impact, financial regulation\\\"<|>7)##\\n(\\\"content_keywords\\\"<|>\\\"market downturn, investor sentiment, commodities, Federal Reserve, stock performance\\\")<|COMPLETE|>\\n#############################\\nExample 3:\\n\\nEntity_types: [economic_policy, athlete, event, location, record, organization, equipment]\\nText:\\n```\\nAt the World Athletics Championship in Tokyo, Noah Carter broke the 100m sprint record using cutting-edge carbon-fiber spikes.\\n```\\n\\nOutput:\\n(\\\"entity\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"event\\\"<|>\\\"The World Athletics Championship is a global sports competition featuring top athletes in track and field.\\\")##\\n(\\\"entity\\\"<|>\\\"Tokyo\\\"<|>\\\"location\\\"<|>\\\"Tokyo is the host city of the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"Noah Carter\\\"<|>\\\"athlete\\\"<|>\\\"Noah Carter is a sprinter who set a new record in the 100m sprint at the World Athletics Championship.\\\")##\\n(\\\"entity\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"record\\\"<|>\\\"The 100m sprint record is a benchmark in athletics, recently broken by Noah Carter.\\\")##\\n(\\\"entity\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"equipment\\\"<|>\\\"Carbon-fiber spikes are advanced sprinting shoes that provide enhanced speed and traction.\\\")##\\n(\\\"entity\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"organization\\\"<|>\\\"The World Athletics Federation is the governing body overseeing the World Athletics Championship and record validations.\\\")##\\n(\\\"relationship\\\"<|>\\\"World Athletics Championship\\\"<|>\\\"Tokyo\\\"<|>\\\"The World Athletics Championship is being hosted in Tokyo.\\\"<|>\\\"event location, international competition\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"Noah Carter set a new 100m sprint record at the championship.\\\"<|>\\\"athlete achievement, record-breaking\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Noah Carter\\\"<|>\\\"Carbon-Fiber Spikes\\\"<|>\\\"Noah Carter used carbon-fiber spikes to enhance performance during the race.\\\"<|>\\\"athletic equipment, performance boost\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"World Athletics Federation\\\"<|>\\\"100m Sprint Record\\\"<|>\\\"The World Athletics Federation is responsible for validating and recognizing new sprint records.\\\"<|>\\\"sports regulation, record certification\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"athletics, sprinting, record-breaking, sports technology, competition\\\")<|COMPLETE|>\\n#############################\\n\\n#############################\\n---Real Data---\\n######################\\nEntity_types: [organization,person,geo,event,category]\\nText:\\nMathematical Equation Analysis:\\nEquation: $$\\n2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O\\n$$\\nFormat: latex\\n\\nMathematical Analysis: The given equation, $ 2 H_2 + O_2 \\\\rightarrow 2 H_2O $, represents a stoichiometric relationship describing the chemical reaction between hydrogen gas ($H_2$) and oxygen gas ($O_2$) to form water ($H_2O$). Mathematically, it is a balanced linear combination of molecular quantities, where coefficients (2 for $H_2$, 1 for $O_2$, and 2 for $H_2O$) ensure conservation of mass and atoms across both sides of the equation. Each term represents a molecule or compound involved in the reaction, with the numerical coefficients denoting molar ratios. This equation reflects the law of conservation of mass, which states that the total number of atoms of each element must remain constant before and after the reaction. The operations used include scalar multiplication and addition, reflecting the principles of linear algebra applied to chemical equations. In theoretical chemistry, this equation serves as a foundational example of stoichiometry and is essential for calculating reactant amounts, yields, and energy changes in combustion and electrochemical processes. It also connects to thermodynamics through enthalpy calculations and to reaction kinetics by defining the molar proportions needed for the reaction to proceed optimally. Practically, this equation models the synthesis of water from its elemental components, which is crucial in fuel cell technology, rocket propulsion, and industrial chemical synthesis.\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"Hydrogen Gas\\\"<|>\\\"category\\\"<|>\\\"Hydrogen gas (H₂) is a diatomic molecule consisting of two hydrogen atoms. It is a key reactant in the synthesis of water and plays a significant role in various industrial processes, including fuel cells and rocket propulsion.\\\")##\\n(\\\"entity\\\"<|>\\\"Oxygen Gas\\\"<|>\\\"category\\\"<|>\\\"Oxygen gas (O₂) is a diatomic molecule composed of two oxygen atoms. It acts as an oxidizing agent in the reaction to form water and is essential for combustion and respiration processes.\\\")##\\n(\\\"entity\\\"<|>\\\"Water\\\"<|>\\\"category\\\"<|>\\\"Water (H₂O) is a compound formed by the chemical reaction between hydrogen and oxygen. It is essential for life and widely used in industrial applications such as cooling, solvent use, and energy production.\\\")##\\n(\\\"entity\\\"<|>\\\"Stoichiometry\\\"<|>\\\"category\\\"<|>\\\"Stoichiometry refers to the quantitative relationship between reactants and products in a chemical reaction. It ensures conservation of mass and is foundational in predicting yields and proportions in chemical processes.\\\")##\\n(\\\"entity\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"event\\\"<|>\\\"The reaction $ 2 H_2 + O_2 \\\\rightarrow 2 H_2O $ represents the synthesis of water from hydrogen and oxygen gases. It is a balanced equation that follows the law of conservation of mass.\\\")##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Gas\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Hydrogen gas is a primary reactant in the chemical reaction that produces water.\\\" <|>\\\"chemical composition, reactant role\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Oxygen Gas\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Oxygen gas reacts with hydrogen to form water in the described chemical reaction.\\\" <|>\\\"oxidation, reactant role\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Water\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Water is the product formed from the reaction between hydrogen and oxygen gases.\\\" <|>\\\"chemical synthesis, product formation\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Stoichiometry\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Stoichiometry governs the molar ratios of reactants and products in the balanced chemical reaction.\\\" <|>\\\"quantitative analysis, conservation laws\\\"<|>9)##\\n(\\\"content_keywords\\\"<|>\\\"chemical reaction, stoichiometry, synthesis, conservation of mass, water formation\\\")<|COMPLETE|>\"}]\nMANY entities and relationships were missed in the last extraction.\n\n---Remember Steps---\n\n1. Identify all entities. For each identified entity, extract the following information:\n- entity_name: Name of the entity, use same language as input text. If English, capitalized the name.\n- entity_type: One of the following types: [organization,person,geo,event,category]\n- entity_description: Comprehensive description of the entity's attributes and activities\nFormat each entity as (\"entity\"<|><entity_name><|><entity_type><|><entity_description>)\n\n2. From the entities identified in step 1, identify all pairs of (source_entity, target_entity) that are *clearly related* to each other.\nFor each pair of related entities, extract the following information:\n- source_entity: name of the source entity, as identified in step 1\n- target_entity: name of the target entity, as identified in step 1\n- relationship_description: explanation as to why you think the source entity and the target entity are related to each other\n- relationship_strength: a numeric score indicating strength of the relationship between the source entity and target entity\n- relationship_keywords: one or more high-level key words that summarize the overarching nature of the relationship, focusing on concepts or themes rather than specific details\nFormat each relationship as (\"relationship\"<|><source_entity><|><target_entity><|><relationship_description><|><relationship_keywords><|><relationship_strength>)\n\n3. Identify high-level key words that summarize the main concepts, themes, or topics of the entire text. These should capture the overarching ideas present in the document.\nFormat the content-level key words as (\"content_keywords\"<|><high_level_keywords>)\n\n4. Return output in English as a single list of all the entities and relationships identified in steps 1 and 2. Use **##** as the list delimiter.\n\n5. When finished, output <|COMPLETE|>\n\n---Output---\n\nAdd them below using the same format:"
    }
  },
  "hybrid": {
    "9c8022e1f41653c46d163f70acada823": {
      "return": "{\"high_level_keywords\": [\"\\u5316\\u5b66\\u53cd\\u5e94\", \"\\u6c22\\u6c14\", \"\\u6c27\\u6c14\"], \"low_level_keywords\": [\"\\u53cd\\u5e94\\u65b9\\u7a0b\\u5f0f\", \"\\u6c34\", \"H2O\", \"2H2 + O2 \\u2192 2H2O\"]}",
      "cache_type": "keywords",
      "chunk_id": null,
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "氢气与氧气的反应方程式是什么？"
    },
    "29278d4684597025f5c0928942c42b30": {
      "return": "氢气与氧气的反应方程式如下：\n\n### 化学反应方程式\n$$2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O$$\n\n### 反应描述\n这是一个平衡的化学反应方程式，表示氢气（H₂）与氧气（O₂）燃烧生成水（H₂O）。该方程式遵循质量守恒定律，反应物和生成物的原子数量在两边相等。\n\n### 关键特点\n1. **反应类型**：合成反应（两种反应物结合生成一种产物）。\n2. **能量变化**：放热反应（释放能量，ΔH < 0）。\n3. **应用领域**：\n   - 氢燃料电池（清洁能源）\n   - 火箭推进系统\n   - 工业水生产\n\n### 数学与化学意义\n- 系数（2, 1, 2）表示摩尔比例，符合化学计量学原则。\n- 是阿伏伽德罗定律（气体摩尔体积）和赫斯定律（焓变）的典型示例。\n\n### 参考资料\n1. [KG] 氢气与氧气反应化学方程式.docx  \n2. [DC] 氢气与氧气反应化学方程式.docx  \n3. [KG] \"Hydrogen-Oxygen Combustion Equation\" 实体  \n4. [KG] \"Balanced Chemical Reaction\" 实体  \n5. [KG] \"化学反应\" 事件关系",
      "cache_type": "query",
      "chunk_id": null,
      "embedding": null,
      "embedding_shape": null,
      "embedding_min": null,
      "embedding_max": null,
      "original_prompt": "氢气与氧气的反应方程式是什么？"
    }
  }
}