dsProject/dsRagAnything/Topic/Chemistry/kv_store_llm_response_cache.json

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      "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问题1 氧化铁和硝酸的反应方程式\n\n问题 2 氢气与氧气燃烧的方程式\n######################\nOutput:"
    },
    "6b730b1d5dc96c5413f2a7b413335da4": {
      "return": "(\"entity\"<|>\"氧化铁\"<|>\"category\"<|>\"Oxide compound commonly used in chemical reactions, specifically with acids like nitric acid.\")##  \n(\"entity\"<|>\"硝酸\"<|>\"category\"<|>\"Strong mineral acid often involved in chemical reactions with metals and metal oxides.\")##  \n(\"entity\"<|>\"氢气\"<|>\"category\"<|>\"Light flammable gas that reacts with oxygen to produce water during combustion.\")##  \n(\"entity\"<|>\"氧气\"<|>\"category\"<|>\"Chemical element essential for combustion processes and widely present in the atmosphere.\")##  \n(\"entity\"<|>\"化学反应方程式\"<|>\"category\"<|>\"Symbolic representation of chemical reactions showing reactants and products.\")##  \n(\"relationship\"<|>\"氧化铁\"<|>\"硝酸\"<|>\"Oxidized iron reacts chemically with nitric acid, producing a specific chemical reaction product.\"\\<|>\"reactant interaction, chemical transformation\"<|>9)##  \n(\"relationship\"<|>\"氢气\"<|>\"氧气\"<|>\"Hydrogen combines with oxygen in a combustion process to form water as the primary product.\"\\<|>\"combustion, chemical bonding\"<|>10)##  \n(\"relationship\"<|>\"化学反应方程式\"<|>\"氧化铁\"<|>\"Chemical equations describe the reaction behavior of substances such as oxidized iron with acids or other reagents.\"\\<|>\"chemical modeling, stoichiometry\"<|>8)##  \n(\"relationship\"<|>\"化学反应方程式\"<|>\"硝酸\"<|>\"Nitric acid's involvement in reactions is often represented through balanced chemical equations.\"\\<|>\"reaction notation, acid chemistry\"<|>8)##  \n(\"relationship\"<|>\"化学反应方程式\"<|>\"氢气\"<|>\"The combustion or reaction of hydrogen gas is typically expressed using chemical reaction equations.\"\\<|>\"chemical modeling, reaction analysis\"<|>8)##  \n(\"relationship\"<|>\"化学反应方程式\"<|>\"氧气\"<|>\"Oxygen's role in various chemical reactions is described and modeled using chemical equations.\"\\<|>\"chemical modeling, oxidation\"<|>8)##  \n(\"content_keywords\"<|>\"chemistry, chemical reactions, equations, oxidation, combustion\")<|COMPLETE|>",
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      "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问题1 氧化铁和硝酸的反应方程式\\n\\n问题 2 氢气与氧气燃烧的方程式\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"content_keywords\\\"<|>\\\"chemical reactions, equations, oxidation, 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:"
    },
    "1b1b9b431d713e5c33d54b0aa6488538": {
      "return": "(\"entity\"<|>\"FeO\"<|>\"chemical_compound\"<|>\"Iron(II) oxide (FeO) is a reactant in the chemical reaction, acting as a reducing agent by undergoing oxidation from Fe²⁺ to Fe³⁺.\")##\n(\"entity\"<|>\"HNO3\"<|>\"chemical_compound\"<|>\"Nitric acid (HNO₃) serves as a strong acid and oxidizing agent in the reaction, participating in redox processes where nitrate is reduced to nitrogen dioxide.\")##\n(\"entity\"<|>\"Fe(NO3)3\"<|>\"chemical_compound\"<|>\"Iron(III) nitrate (Fe(NO₃)₃) is a product formed when FeO reacts with HNO₃, indicating the oxidation of iron from Fe²⁺ to Fe³⁺.\")##\n(\"entity\"<|>\"H2\"<|>\"chemical_compound\"<|>\"Hydrogen gas (H₂) is one of the gaseous products formed during the reaction, suggesting reduction or proton reduction processes occurring alongside redox reactions.\")##\n(\"entity\"<|>\"NO2\"<|>\"chemical_compound\"<|>\"Nitrogen dioxide (NO₂) is a reddish-brown gas produced in the reaction, indicating that nitrate from HNO₃ has been reduced during the redox process.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"event\"<|>\"The described chemical reaction involves FeO reacting with HNO₃ under heat to produce Fe(NO₃)₃, H₂, and NO₂, showcasing a redox transformation.\")##\n(\"entity\"<|>\"Redox Process\"<|>\"category\"<|>\"This reaction exemplifies a redox process involving both oxidation (Fe²⁺ to Fe³⁺) and reduction (nitrate to NO₂), fundamental in understanding chemical reactivity.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry ensures conservation of mass and atoms across the reaction, balancing the molar ratios of reactants and products in the equation.\")##\n(\"entity\"<|>\"Industrial Acid Leaching\"<|>\"category\"<|>\"This type of reaction may occur in industrial acid leaching, where acids like HNO₃ are used to extract metals through chemical dissolution.\")##\n(\"entity\"<|>\"Environmental Chemistry\"<|>\"category\"<|>\"In environmental chemistry, such reactions can be relevant for understanding acid rain interactions, nitrogen oxide emissions, and redox transformations in natural systems.\")##\n(\"relationship\"<|>\"FeO\"<|>\"HNO3\"<|>\"FeO reacts with HNO₃ in a redox reaction where Fe²⁺ is oxidized and nitrate is reduced.\" <|>\"redox interaction, chemical reaction\"<|>9)##\n(\"relationship\"<|>\"HNO3\"<|>\"NO2\"<|>\"HNO₃ acts as the source of nitrate which is reduced to form NO₂ during the reaction.\"<|>\"reduction product, redox chemistry\"<|>10)##\n(\"relationship\"<|>\"FeO\"<|>\"Fe(NO3)3\"<|>\"FeO is the source of Fe²⁺ which is oxidized to Fe³⁺, forming Fe(NO₃)₃ as the final product.\"<|>\"oxidation product, chemical transformation\"<|>9)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Redox Process\"<|>\"The chemical reaction described is an example of a redox process involving electron transfer between species.\"<|>\"chemical classification, redox nature\"<|>10)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Stoichiometry\"<|>\"The reaction follows stoichiometric principles to maintain atomic balance before and after the transformation.\"<|>\"reaction balancing, quantitative analysis\"<|>8)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Industrial Acid Leaching\"<|>\"This type of acid-metal reaction is commonly applied in industrial acid leaching for metal extraction.\"<|>\"industrial application, chemical processing\"<|>7)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Environmental Chemistry\"<|>\"Such redox reactions involving nitric acid and oxides are relevant in environmental chemistry contexts like pollution and soil chemistry.\"<|>\"environmental relevance, acid-base interaction\"<|>6)##\n(\"content_keywords\"<|>\"redox reaction, stoichiometry, chemical transformation, nitric acid, oxidation-reduction\")<|COMPLETE|>",
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      "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: $$\nF e O + 4 H N O _ { 3 } { \\stackrel { \\Delta } { = } } F e \\left( N o _ { 3 } \\right) _ { 3 } + 2 H _ { 2 } + N O _ { 2 } \\uparrow\n$$\nFormat: latex\n\nMathematical Analysis: The given equation represents a chemical reaction between iron(II) oxide (FeO) and nitric acid (HNO₃), yielding iron(III) nitrate (Fe(NO₃)₃), hydrogen gas (H₂), and nitrogen dioxide gas (NO₂). This is not a purely mathematical equation but rather a stoichiometric representation of a chemical transformation. The symbols denote atomic elements, while the coefficients indicate molar ratios involved in the reaction. The Δ symbol above the reaction arrow indicates that heat is applied to facilitate the reaction. Stoichiometry plays a key role here as it ensures the conservation of mass and atoms across both sides of the equation. This reaction may occur in contexts such as industrial acid leaching or environmental chemistry where nitric acid participates in redox processes. From a theoretical standpoint, this equation implies redox behavior: Fe²⁺ in FeO is oxidized to Fe³⁺, while nitrate (NO₃⁻) from HNO₃ acts as an oxidizing agent, being reduced to NO₂. It relates to broader thermodynamic and kinetic concepts governing chemical reactivity, particularly under heated conditions. In practical applications, such reactions are relevant in metal processing, fertilizer production, and waste treatment involving nitric acid.\n######################\nOutput:"
    },
    "8cd5adae2041363b99c3e49838da360c": {
      "return": "(\"entity\"<|>\"FeO\"<|>\"category\"<|>\"Iron(II) oxide (FeO) is a chemical compound acting as a reactant in the described chemical reaction, where Fe²⁺ undergoes oxidation.\")##\n(\"entity\"<|>\"HNO3\"<|>\"category\"<|>\"Nitric acid (HNO₃) is a strong acid and oxidizing agent involved in the reaction, where nitrate is reduced during the redox process.\")##\n(\"entity\"<|>\"Fe(NO3)3\"<|>\"category\"<|>\"Iron(III) nitrate is a product of the reaction formed through the oxidation of iron from Fe²⁺ to Fe³⁺.\")##\n(\"entity\"<|>\"H2\"<|>\"category\"<|>\"Hydrogen gas (H₂) is a gaseous product formed during the reaction, indicating reduction or proton reduction processes.\")##\n(\"entity\"<|>\"NO2\"<|>\"category\"<|>\"Nitrogen dioxide is a reddish-brown gas produced when nitrate from HNO₃ is reduced during the redox transformation.\")##\n(\"entity\"<|>\"Chemical Reaction\"<|>\"event\"<|>\"The chemical reaction involves FeO reacting with HNO₃ under heat to yield Fe(NO₃)₃, H₂, and NO₂, representing a redox transformation.\")##\n(\"entity\"<|>\"Redox Process\"<|>\"category\"<|>\"This reaction exemplifies a redox process involving both oxidation (Fe²⁺ to Fe³⁺) and reduction (nitrate to NO₂), crucial for understanding chemical reactivity.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry ensures conservation of mass and atoms across the reaction by balancing molar ratios of reactants and products.\")##\n(\"entity\"<|>\"Industrial Acid Leaching\"<|>\"category\"<|>\"This type of reaction may occur in industrial acid leaching, where acids like HNO₃ are used to extract metals via chemical dissolution.\")##\n(\"entity\"<|>\"Environmental Chemistry\"<|>\"category\"<|>\"In environmental chemistry, such reactions are relevant for understanding acid rain interactions, nitrogen oxide emissions, and redox transformations in natural systems.\")##\n(\"relationship\"<|>\"FeO\"<|>\"HNO3\"<|>\"FeO reacts with HNO₃ in a redox reaction where Fe²⁺ is oxidized and nitrate is reduced.\" <|>\"redox interaction, chemical reaction\"<|>9)##\n(\"relationship\"<|>\"HNO3\"<|>\"NO2\"<|>\"HNO₃ acts as the source of nitrate which is reduced to form NO₂ during the redox reaction.\"<|>\"reduction product, redox chemistry\"<|>10)##\n(\"relationship\"<|>\"FeO\"<|>\"Fe(NO3)3\"<|>\"FeO serves as the source of Fe²⁺ which is oxidized to Fe³⁺, forming Fe(NO₃)₃ as the final product.\"<|>\"oxidation product, chemical transformation\"<|>9)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Redox Process\"<|>\"The described chemical reaction is an example of a redox process involving electron transfer between species.\"<|>\"chemical classification, redox nature\"<|>10)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Stoichiometry\"<|>\"The reaction follows stoichiometric principles to maintain atomic balance before and after the transformation.\"<|>\"reaction balancing, quantitative analysis\"<|>8)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Industrial Acid Leaching\"<|>\"This acid-metal reaction is commonly observed in industrial acid leaching for metal extraction purposes.\"<|>\"industrial application, chemical processing\"<|>7)##\n(\"relationship\"<|>\"Chemical Reaction\"<|>\"Environmental Chemistry\"<|>\"Such redox reactions involving nitric acid and oxides are relevant in environmental chemistry contexts like pollution and soil chemistry.\"<|>\"environmental relevance, acid-base interaction\"<|>6)##\n(\"content_keywords\"<|>\"redox reaction, stoichiometry, chemical transformation, nitric acid, oxidation-reduction\")<|COMPLETE|>",
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      "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: $$\\nF e O + 4 H N O _ { 3 } { \\\\stackrel { \\\\Delta } { = } } F e \\\\left( N o _ { 3 } \\\\right) _ { 3 } + 2 H _ { 2 } + N O _ { 2 } \\\\uparrow\\n$$\\nFormat: latex\\n\\nMathematical Analysis: The given equation represents a chemical reaction between iron(II) oxide (FeO) and nitric acid (HNO₃), yielding iron(III) nitrate (Fe(NO₃)₃), hydrogen gas (H₂), and nitrogen dioxide gas (NO₂). This is not a purely mathematical equation but rather a stoichiometric representation of a chemical transformation. The symbols denote atomic elements, while the coefficients indicate molar ratios involved in the reaction. The Δ symbol above the reaction arrow indicates that heat is applied to facilitate the reaction. Stoichiometry plays a key role here as it ensures the conservation of mass and atoms across both sides of the equation. This reaction may occur in contexts such as industrial acid leaching or environmental chemistry where nitric acid participates in redox processes. From a theoretical standpoint, this equation implies redox behavior: Fe²⁺ in FeO is oxidized to Fe³⁺, while nitrate (NO₃⁻) from HNO₃ acts as an oxidizing agent, being reduced to NO₂. It relates to broader thermodynamic and kinetic concepts governing chemical reactivity, particularly under heated conditions. In practical applications, such reactions are relevant in metal processing, fertilizer production, and waste treatment involving nitric acid.\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"FeO\\\"<|>\\\"chemical_compound\\\"<|>\\\"Iron(II) oxide (FeO) is a reactant in the chemical reaction, acting as a reducing agent by undergoing oxidation from Fe²⁺ to Fe³⁺.\\\")##\\n(\\\"entity\\\"<|>\\\"HNO3\\\"<|>\\\"chemical_compound\\\"<|>\\\"Nitric acid (HNO₃) serves as a strong acid and oxidizing agent in the reaction, participating in redox processes where nitrate is reduced to nitrogen dioxide.\\\")##\\n(\\\"entity\\\"<|>\\\"Fe(NO3)3\\\"<|>\\\"chemical_compound\\\"<|>\\\"Iron(III) nitrate (Fe(NO₃)₃) is a product formed when FeO reacts with HNO₃, indicating the oxidation of iron from Fe²⁺ to Fe³⁺.\\\")##\\n(\\\"entity\\\"<|>\\\"H2\\\"<|>\\\"chemical_compound\\\"<|>\\\"Hydrogen gas (H₂) is one of the gaseous products formed during the reaction, suggesting reduction or proton reduction processes occurring alongside redox reactions.\\\")##\\n(\\\"entity\\\"<|>\\\"NO2\\\"<|>\\\"chemical_compound\\\"<|>\\\"Nitrogen dioxide (NO₂) is a reddish-brown gas produced in the reaction, indicating that nitrate from HNO₃ has been reduced during the redox process.\\\")##\\n(\\\"entity\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"event\\\"<|>\\\"The described chemical reaction involves FeO reacting with HNO₃ under heat to produce Fe(NO₃)₃, H₂, and NO₂, showcasing a redox transformation.\\\")##\\n(\\\"entity\\\"<|>\\\"Redox Process\\\"<|>\\\"category\\\"<|>\\\"This reaction exemplifies a redox process involving both oxidation (Fe²⁺ to Fe³⁺) and reduction (nitrate to NO₂), fundamental in understanding chemical reactivity.\\\")##\\n(\\\"entity\\\"<|>\\\"Stoichiometry\\\"<|>\\\"category\\\"<|>\\\"Stoichiometry ensures conservation of mass and atoms across the reaction, balancing the molar ratios of reactants and products in the equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Industrial Acid Leaching\\\"<|>\\\"category\\\"<|>\\\"This type of reaction may occur in industrial acid leaching, where acids like HNO₃ are used to extract metals through chemical dissolution.\\\")##\\n(\\\"entity\\\"<|>\\\"Environmental Chemistry\\\"<|>\\\"category\\\"<|>\\\"In environmental chemistry, such reactions can be relevant for understanding acid rain interactions, nitrogen oxide emissions, and redox transformations in natural systems.\\\")##\\n(\\\"relationship\\\"<|>\\\"FeO\\\"<|>\\\"HNO3\\\"<|>\\\"FeO reacts with HNO₃ in a redox reaction where Fe²⁺ is oxidized and nitrate is reduced.\\\" <|>\\\"redox interaction, chemical reaction\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"HNO3\\\"<|>\\\"NO2\\\"<|>\\\"HNO₃ acts as the source of nitrate which is reduced to form NO₂ during the reaction.\\\"<|>\\\"reduction product, redox chemistry\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"FeO\\\"<|>\\\"Fe(NO3)3\\\"<|>\\\"FeO is the source of Fe²⁺ which is oxidized to Fe³⁺, forming Fe(NO₃)₃ as the final product.\\\"<|>\\\"oxidation product, chemical transformation\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Redox Process\\\"<|>\\\"The chemical reaction described is an example of a redox process involving electron transfer between species.\\\"<|>\\\"chemical classification, redox nature\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Stoichiometry\\\"<|>\\\"The reaction follows stoichiometric principles to maintain atomic balance before and after the transformation.\\\"<|>\\\"reaction balancing, quantitative analysis\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Industrial Acid Leaching\\\"<|>\\\"This type of acid-metal reaction is commonly applied in industrial acid leaching for metal extraction.\\\"<|>\\\"industrial application, chemical processing\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Chemical Reaction\\\"<|>\\\"Environmental Chemistry\\\"<|>\\\"Such redox reactions involving nitric acid and oxides are relevant in environmental chemistry contexts like pollution and soil chemistry.\\\"<|>\\\"environmental relevance, acid-base interaction\\\"<|>6)##\\n(\\\"content_keywords\\\"<|>\\\"redox reaction, stoichiometry, chemical transformation, nitric acid, oxidation-reduction\\\")<|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:"
    },
    "cd60b57e514fb77fdb668f36d8995b74": {
      "return": "(\"entity\"<|>\"Hydrogen Combustion Reaction\"<|>\"event\"<|>\"The Hydrogen Combustion Reaction is a stoichiometric chemical process where hydrogen gas reacts with oxygen to produce water, represented by the balanced equation $ 2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O $. It exemplifies the Law of Conservation of Mass and plays a key role in thermodynamics and reaction kinetics.\")##\n(\"entity\"<|>\"Law of Conservation of Mass\"<|>\"category\"<|>\"The Law of Conservation of Mass states that mass cannot be created or destroyed in a closed system during a chemical reaction, which is demonstrated by the balanced nature of the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the quantitative relationships between reactants and products in a chemical reaction, as illustrated by the coefficients in the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Thermodynamics\"<|>\"category\"<|>\"Thermodynamics encompasses the study of energy transformations in chemical reactions, such as the exothermic bond formation seen in the hydrogen combustion process.\")##\n(\"entity\"<|>\"Fuel Cell Technology\"<|>\"organization\"<|>\"Fuel Cell Technology involves systems that convert chemical energy from fuels like hydrogen into electricity through reactions with oxygen, relying on principles demonstrated by the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Rocket Propulsion\"<|>\"event\"<|>\"Rocket Propulsion refers to the application of controlled chemical reactions, such as the combustion of liquid hydrogen and oxygen, to generate thrust for spacecraft launch and maneuvering.\")##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Law of Conservation of Mass\"<|>\"The hydrogen combustion reaction demonstrates the Law of Conservation of Mass by maintaining equal numbers of atoms on both sides of the balanced equation.\"<|>\"chemical balance, conservation principle\"<|>9)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Stoichiometry\"<|>\"The hydrogen combustion equation is a foundational example used in Stoichiometry to illustrate molar ratios and reaction modeling.\"<|>\"quantitative chemistry, reaction modeling\"<|>10)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Thermodynamics\"<|>\"The hydrogen combustion reaction illustrates Thermodynamic principles, particularly the release of energy through bond formation in an exothermic process.\"<|>\"energy transformation, exothermic reaction\"<|>8)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Fuel Cell Technology\"<|>\"Fuel Cell Technology utilizes the hydrogen combustion reaction to generate electrical energy efficiently.\"<|>\"energy conversion, chemical reaction\"<|>7)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Rocket Propulsion\"<|>\"Rocket Propulsion systems often use the hydrogen combustion reaction to produce high-energy thrust for space travel.\"<|>\"propulsion mechanism, aerospace application\"<|>8)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, thermodynamics, conservation of mass, fuel technology\")<|COMPLETE|>",
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      "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 } = 2 H _ { 2 } O $ is a stoichiometric representation of a chemical reaction, specifically the combustion of hydrogen gas in the presence of oxygen to form water. In this balanced chemical equation, the coefficients (2 for $ H_2 $, 1 for $ O_2 $, and 2 for $ H_2O $) ensure that the number of atoms of each element is conserved on both sides of the equation, in accordance with the Law of Conservation of Mass. The variables represent molecular species: $ H_2 $ denotes diatomic hydrogen, $ O_2 $ denotes diatomic oxygen, and $ H_2O $ represents a molecule of water. This equation employs integer coefficients to express molar ratios, a fundamental concept in stoichiometry and reaction kinetics. It also implies energy transformations governed by thermodynamic principles, particularly exothermic reactions where bond formation releases energy. In the broader context of chemical equations—such as the oxidation of iron with nitric acid mentioned alongside—it serves as a canonical example of a synthesis reaction and combustion process. Mathematically, such equations are foundational in modeling reaction dynamics, equilibrium systems, and redox processes. Practical applications include fuel cell technology, rocket propulsion using liquid hydrogen and oxygen, and environmental chemistry in understanding water formation cycles.\n######################\nOutput:"
    },
    "dbf95fe20ce3d8dbc79fe69f9eb2c801": {
      "return": "(\"entity\"<|>\"Hydrogen Combustion Reaction\"<|>\"event\"<|>\"The Hydrogen Combustion Reaction is a stoichiometric chemical process where hydrogen gas reacts with oxygen to produce water, represented by the balanced equation $ 2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O $. It exemplifies the Law of Conservation of Mass and plays a key role in thermodynamics and reaction kinetics.\")##\n(\"entity\"<|>\"Law of Conservation of Mass\"<|>\"category\"<|>\"The Law of Conservation of Mass states that mass cannot be created or destroyed in a closed system during a chemical reaction, which is demonstrated by the balanced nature of the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Stoichiometry\"<|>\"category\"<|>\"Stoichiometry refers to the quantitative relationships between reactants and products in a chemical reaction, as illustrated by the coefficients in the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Thermodynamics\"<|>\"category\"<|>\"Thermodynamics encompasses the study of energy transformations in chemical reactions, such as the exothermic bond formation seen in the hydrogen combustion process.\")##\n(\"entity\"<|>\"Fuel Cell Technology\"<|>\"organization\"<|>\"Fuel Cell Technology involves systems that convert chemical energy from fuels like hydrogen into electricity through reactions with oxygen, relying on principles demonstrated by the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Rocket Propulsion\"<|>\"event\"<|>\"Rocket Propulsion refers to the application of controlled chemical reactions, such as the combustion of liquid hydrogen and oxygen, to generate thrust for spacecraft launch and maneuvering.\")##\n(\"entity\"<|>\"Reaction Kinetics\"<|>\"category\"<|>\"Reaction Kinetics is the study of the rates of chemical reactions and the factors influencing them, relevant to the hydrogen combustion process described in the text.\")##\n(\"entity\"<|>\"Exothermic Reactions\"<|>\"category\"<|>\"Exothermic Reactions are chemical processes that release energy, typically in the form of heat, such as the bond formation in the hydrogen combustion reaction.\")##\n(\"entity\"<|>\"Redox Processes\"<|>\"category\"<|>\"Redox Processes involve electron transfer reactions and are fundamental to understanding the oxidation-reduction dynamics of the hydrogen combustion equation.\")##\n(\"entity\"<|>\"Environmental Chemistry\"<|>\"category\"<|>\"Environmental Chemistry studies the chemical processes occurring in natural environments, including water formation cycles linked to the hydrogen combustion reaction.\")##\n(\"entity\"<|>\"Chemical Equation Modeling\"<|>\"category\"<|>\"Chemical Equation Modeling involves using mathematical representations to describe and predict the behavior of chemical reactions, such as the hydrogen-oxygen-water system.\")##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Law of Conservation of Mass\"<|>\"The hydrogen combustion reaction demonstrates the Law of Conservation of Mass by maintaining equal numbers of atoms on both sides of the balanced equation.\"<|>\"chemical balance, conservation principle\"<|>9)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Stoichiometry\"<|>\"The hydrogen combustion equation is a foundational example used in Stoichiometry to illustrate molar ratios and reaction modeling.\"<|>\"quantitative chemistry, reaction modeling\"<|>10)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Thermodynamics\"<|>\"The hydrogen combustion reaction illustrates Thermodynamic principles, particularly the release of energy through bond formation in an exothermic process.\"<|>\"energy transformation, exothermic reaction\"<|>8)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Fuel Cell Technology\"<|>\"Fuel Cell Technology utilizes the hydrogen combustion reaction to generate electrical energy efficiently.\"<|>\"energy conversion, chemical reaction\"<|>7)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Rocket Propulsion\"<|>\"Rocket Propulsion systems often use the hydrogen combustion reaction to produce high-energy thrust for space travel.\"<|>\"propulsion mechanism, aerospace application\"<|>8)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Reaction Kinetics\"<|>\"The hydrogen combustion reaction serves as a case study in Reaction Kinetics to analyze the rate and efficiency of energy release in chemical processes.\"<|>\"reaction rate, energy efficiency\"<|>7)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Exothermic Reactions\"<|>\"The hydrogen combustion reaction is an example of an Exothermic Reaction, where energy is released during the formation of water molecules.\"<|>\"energy release, chemical transformation\"<|>9)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Redox Processes\"<|>\"The hydrogen combustion reaction involves Redox Processes, where hydrogen is oxidized and oxygen is reduced during the formation of water.\"<|>\"electron transfer, oxidation-reduction\"<|>8)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Environmental Chemistry\"<|>\"The hydrogen combustion reaction contributes to Environmental Chemistry by explaining natural water formation cycles and potential clean energy applications.\"<|>\"environmental impact, clean energy\"<|>6)##\n(\"relationship\"<|>\"Hydrogen Combustion Reaction\"<|>\"Chemical Equation Modeling\"<|>\"The hydrogen combustion equation serves as a canonical model in Chemical Equation Modeling for studying reaction dynamics and equilibrium systems.\"<|>\"mathematical representation, reaction analysis\"<|>9)##\n(\"content_keywords\"<|>\"chemical reaction, stoichiometry, thermodynamics, conservation of mass, fuel technology, reaction kinetics, redox, environmental chemistry\")<|COMPLETE|>",
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      "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 } = 2 H _ { 2 } O $ is a stoichiometric representation of a chemical reaction, specifically the combustion of hydrogen gas in the presence of oxygen to form water. In this balanced chemical equation, the coefficients (2 for $ H_2 $, 1 for $ O_2 $, and 2 for $ H_2O $) ensure that the number of atoms of each element is conserved on both sides of the equation, in accordance with the Law of Conservation of Mass. The variables represent molecular species: $ H_2 $ denotes diatomic hydrogen, $ O_2 $ denotes diatomic oxygen, and $ H_2O $ represents a molecule of water. This equation employs integer coefficients to express molar ratios, a fundamental concept in stoichiometry and reaction kinetics. It also implies energy transformations governed by thermodynamic principles, particularly exothermic reactions where bond formation releases energy. In the broader context of chemical equations—such as the oxidation of iron with nitric acid mentioned alongside—it serves as a canonical example of a synthesis reaction and combustion process. Mathematically, such equations are foundational in modeling reaction dynamics, equilibrium systems, and redox processes. Practical applications include fuel cell technology, rocket propulsion using liquid hydrogen and oxygen, and environmental chemistry in understanding water formation cycles.\\n######################\\nOutput:\"}, {\"role\": \"assistant\", \"content\": \"(\\\"entity\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"event\\\"<|>\\\"The Hydrogen Combustion Reaction is a stoichiometric chemical process where hydrogen gas reacts with oxygen to produce water, represented by the balanced equation $ 2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O $. It exemplifies the Law of Conservation of Mass and plays a key role in thermodynamics and reaction kinetics.\\\")##\\n(\\\"entity\\\"<|>\\\"Law of Conservation of Mass\\\"<|>\\\"category\\\"<|>\\\"The Law of Conservation of Mass states that mass cannot be created or destroyed in a closed system during a chemical reaction, which is demonstrated by the balanced nature of the hydrogen combustion equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Stoichiometry\\\"<|>\\\"category\\\"<|>\\\"Stoichiometry refers to the quantitative relationships between reactants and products in a chemical reaction, as illustrated by the coefficients in the hydrogen combustion equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Thermodynamics\\\"<|>\\\"category\\\"<|>\\\"Thermodynamics encompasses the study of energy transformations in chemical reactions, such as the exothermic bond formation seen in the hydrogen combustion process.\\\")##\\n(\\\"entity\\\"<|>\\\"Fuel Cell Technology\\\"<|>\\\"organization\\\"<|>\\\"Fuel Cell Technology involves systems that convert chemical energy from fuels like hydrogen into electricity through reactions with oxygen, relying on principles demonstrated by the hydrogen combustion equation.\\\")##\\n(\\\"entity\\\"<|>\\\"Rocket Propulsion\\\"<|>\\\"event\\\"<|>\\\"Rocket Propulsion refers to the application of controlled chemical reactions, such as the combustion of liquid hydrogen and oxygen, to generate thrust for spacecraft launch and maneuvering.\\\")##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"Law of Conservation of Mass\\\"<|>\\\"The hydrogen combustion reaction demonstrates the Law of Conservation of Mass by maintaining equal numbers of atoms on both sides of the balanced equation.\\\"<|>\\\"chemical balance, conservation principle\\\"<|>9)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"Stoichiometry\\\"<|>\\\"The hydrogen combustion equation is a foundational example used in Stoichiometry to illustrate molar ratios and reaction modeling.\\\"<|>\\\"quantitative chemistry, reaction modeling\\\"<|>10)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"Thermodynamics\\\"<|>\\\"The hydrogen combustion reaction illustrates Thermodynamic principles, particularly the release of energy through bond formation in an exothermic process.\\\"<|>\\\"energy transformation, exothermic reaction\\\"<|>8)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"Fuel Cell Technology\\\"<|>\\\"Fuel Cell Technology utilizes the hydrogen combustion reaction to generate electrical energy efficiently.\\\"<|>\\\"energy conversion, chemical reaction\\\"<|>7)##\\n(\\\"relationship\\\"<|>\\\"Hydrogen Combustion Reaction\\\"<|>\\\"Rocket Propulsion\\\"<|>\\\"Rocket Propulsion systems often use the hydrogen combustion reaction to produce high-energy thrust for space travel.\\\"<|>\\\"propulsion mechanism, aerospace application\\\"<|>8)##\\n(\\\"content_keywords\\\"<|>\\\"chemical reaction, stoichiometry, thermodynamics, conservation of mass, fuel technology\\\")<|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:"
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      "original_prompt": "氧化铁和硝酸的反应方程式?\n 1、请使用双横线(==)表示化学反应方程式中的所有符号，包括反应符号和生成符号，不要使用单箭头(→)。\n 2、不要输出参考资料 或者 References ！\n 3、如果问题与提供的知识库内容不符，则明确告诉未在知识库范围内提到！"
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      "original_prompt": "氧化铁和硝酸的反应方程式?\n 1、不要输出参考资料 或者 References ！\n 2、如果问题与提供的知识库内容不符，则明确告诉未在知识库范围内提到！"
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      "original_prompt": "氧化铁和硝酸的反应方程式?\n 1、不要输出参考资料 或者 References ！\n 2、如果问题与提供的知识库内容不符，则明确告诉未在知识库范围内提到！\n 3、如果知识库中提供了化学反应方程式，那么一定要严格按照知识库提供的内容输出，不允许进行修改！"
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      "original_prompt": "氧化铁和硝酸的反应方程式?\n 1、特别注意：知识库中提供了化学反应方程式，就一定要严格按照知识库提供的内容输出，一定不要修改！\n 2、不要输出参考资料 或者 References ！\n 3、如果问题与提供的知识库内容不符，则明确告诉未在知识库范围内提到！"
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      "original_prompt": "氢气与氧气燃烧反应化学方程式\n 1、不要输出参考资料 或者 References ！\n 2、如果问题与提供的知识库内容不符，则明确告诉未在知识库范围内提到！"
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      "return": "{\"high_level_keywords\": [\"\\u5316\\u5b66\\u53cd\\u5e94\", \"\\u65b9\\u7a0b\\u5f0f\"], \"low_level_keywords\": [\"\\u6c22\\u6c14\", \"\\u6c27\\u6c14\"]}",
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      "original_prompt": "氢气与氧气的反应方程式是什么？"
    },
    "29278d4684597025f5c0928942c42b30": {
      "return": "根据提供的知识库内容，氢气与氧气的燃烧反应方程式如下：\n\n**氢气燃烧反应方程式**  \n$$ 2 H _ { 2 } + O _ { 2 } = 2 H _ { 2 } O $$  \n\n### 反应特点与背景  \n1. **化学计量学（Stoichiometry）**  \n   - 方程式中系数（2:1:2）体现了反应物与生成物的摩尔比例，符合质量守恒定律（Law of Conservation of Mass）。  \n   - 每2分子氢气（$H_2$）与1分子氧气（$O_2$）完全反应生成2分子水（$H_2O$）。\n\n2. **反应类型**  \n   - 属于**放热反应（Exothermic Reactions）**，反应过程中释放能量（如热能）。  \n   - 涉及**氧化还原过程（Redox Processes）**：氢气被氧化，氧气被还原。\n\n3. **应用领域**  \n   - **火箭推进（Rocket Propulsion）**：液态氢与氧的燃烧常用于航天器燃料。  \n   - **燃料电池技术（Fuel Cell Technology）**：通过该反应高效转化化学能为电能。  \n\n---\n\n### 参考文献  \n1. [KG] 化学方程式_CHEMISTRY_1.docx（实体：Hydrogen Combustion Reaction (equation)）  \n2. [DC] 化学方程式_CHEMISTRY_1.docx（内容：Mathematical Equation Analysis）  \n3. [KG] 化学方程式_CHEMISTRY_1.docx（实体：Stoichiometry）  \n4. [KG] 化学方程式_CHEMISTRY_1.docx（实体：Law of Conservation of Mass）  \n5. [KG] 化学方程式_CHEMISTRY_1.docx（实体：Rocket Propulsion）",
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      "original_prompt": "氢气与氧气的反应方程式是什么？"
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