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SQuAD
The common features of passive solar architecture are orientation relative to the Sun, compact proportion (a low surface area to volume ratio), selective shading (overhangs) and thermal mass. When these features are tailored to the local climate and environment they can produce well-lit spaces that stay in a comfortabl...
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2de4c4f8a97146c68dad152b1d20942b
What is produced when the features of passive solar architecture are customized to the environment?
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{ "text": [ "well-lit spaces that stay in a comfortable temperature range" ], "char_spans": [ { "start": [ 279 ], "end": [ 338 ] } ], "token_spans": [ { "start": [ 49 ], "end": [ 59 ] } ] }
[ "well-lit spaces that stay in a comfortable temperature range" ]
SQuAD
The common features of passive solar architecture are orientation relative to the Sun, compact proportion (a low surface area to volume ratio), selective shading (overhangs) and thermal mass. When these features are tailored to the local climate and environment they can produce well-lit spaces that stay in a comfortabl...
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0f22fbb3c4f94911a1490d10e2328294
What is an example of passive solar design?
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{ "text": [ "Socrates' Megaron House" ], "char_spans": [ { "start": [ 341 ], "end": [ 363 ] } ], "token_spans": [ { "start": [ 61 ], "end": [ 64 ] } ] }
[ "Socrates' Megaron House" ]
SQuAD
The common features of passive solar architecture are orientation relative to the Sun, compact proportion (a low surface area to volume ratio), selective shading (overhangs) and thermal mass. When these features are tailored to the local climate and environment they can produce well-lit spaces that stay in a comfortabl...
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9d672cec97fa4bd6bedb56906f3e7eef
What kind of equipment can improve system performance?
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{ "text": [ "pumps, fans and switchable windows" ], "char_spans": [ { "start": [ 609 ], "end": [ 642 ] } ], "token_spans": [ { "start": [ 105 ], "end": [ 110 ] } ] }
[ "pumps, fans and switchable windows" ]
SQuAD
The International Organization for Standardization has established a number of standards relating to solar energy equipment. For example, ISO 9050 relates to glass in building while ISO 10217 relates to the materials used in solar water heaters.
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f7bfe7777dc74de5b3d9024fe93f03c8
ISO 9050 relates to standards for what?
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{ "text": [ "glass in building" ], "char_spans": [ { "start": [ 158 ], "end": [ 174 ] } ], "token_spans": [ { "start": [ 24 ], "end": [ 26 ] } ] }
[ "glass in building" ]
SQuAD
The International Organization for Standardization has established a number of standards relating to solar energy equipment. For example, ISO 9050 relates to glass in building while ISO 10217 relates to the materials used in solar water heaters.
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0e5145088b544ddc8f2259fd013a71e2
ISO 10217 relates to standards for what?
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{ "text": [ "materials used in solar water heaters" ], "char_spans": [ { "start": [ 207 ], "end": [ 243 ] } ], "token_spans": [ { "start": [ 33 ], "end": [ 38 ] } ] }
[ "materials used in solar water heaters" ]
SQuAD
The International Organization for Standardization has established a number of standards relating to solar energy equipment. For example, ISO 9050 relates to glass in building while ISO 10217 relates to the materials used in solar water heaters.
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e1dd0ed85df043a997be2c6351a393d0
What is the name of the standard related to glass in building?
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{ "text": [ "ISO 9050" ], "char_spans": [ { "start": [ 138 ], "end": [ 145 ] } ], "token_spans": [ { "start": [ 20 ], "end": [ 21 ] } ] }
[ "ISO 9050" ]
SQuAD
The International Organization for Standardization has established a number of standards relating to solar energy equipment. For example, ISO 9050 relates to glass in building while ISO 10217 relates to the materials used in solar water heaters.
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f90540406bca4fee8b69d5bbc1a5dd8c
What is the name of the standard related to the materials used in solar water heaters?
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{ "text": [ "ISO 10217" ], "char_spans": [ { "start": [ 182 ], "end": [ 190 ] } ], "token_spans": [ { "start": [ 28 ], "end": [ 29 ] } ] }
[ "ISO 10217" ]
SQuAD
In 2000, the United Nations Development Programme, UN Department of Economic and Social Affairs, and World Energy Council published an estimate of the potential solar energy that could be used by humans each year that took into account factors such as insolation, cloud cover, and the land that is usable by humans. The ...
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ab2a5e44f97843249d263fce7df2f6ae
What factors were taken into account in the estimate published in 2000 on solar energy?
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{ "text": [ "insolation, cloud cover, and the land that is usable by humans" ], "char_spans": [ { "start": [ 252 ], "end": [ 313 ] } ], "token_spans": [ { "start": [ 44 ], "end": [ 56 ] } ] }
[ "insolation, cloud cover, and the land that is usable by humans" ]
SQuAD
In 2000, the United Nations Development Programme, UN Department of Economic and Social Affairs, and World Energy Council published an estimate of the potential solar energy that could be used by humans each year that took into account factors such as insolation, cloud cover, and the land that is usable by humans. The ...
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e2c92062ca264a99a43078071bc931f5
What was the total potential of solar energy found in the estimate?
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{ "text": [ "1,575–49,837 EJ per year" ], "char_spans": [ { "start": [ 379 ], "end": [ 402 ] } ], "token_spans": [ { "start": [ 69 ], "end": [ 72 ] } ] }
[ "1,575–49,837 EJ per year" ]
SQuAD
In addition, land availability has a large effect on the available solar energy because solar panels can only be set up on land that is unowned and suitable for solar panels. Roofs have been found to be a suitable place for solar cells, as many people have discovered that they can collect energy directly from their hom...
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5b445ccda6294b189c99a608032ec9bd
Why does land availability have an effect on solar energy?
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[ "solar panels can only be set up on land that is unowned and suitable for solar panels" ]
SQuAD
In addition, land availability has a large effect on the available solar energy because solar panels can only be set up on land that is unowned and suitable for solar panels. Roofs have been found to be a suitable place for solar cells, as many people have discovered that they can collect energy directly from their hom...
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6ea0c9732d4e4395b0903774508c0e56
Why are roofs a good place for solar panels?
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[ "many people have discovered that they can collect energy directly from their homes this way" ]
SQuAD
The potential solar energy that could be used by humans differs from the amount of solar energy present near the surface of the planet because factors such as geography, time variation, cloud cover, and the land available to humans limits the amount of solar energy that we can acquire.
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3574153337c749aba29364cc360cf25c
Why does the amount of usable solar energy differ from the amount near the planets surface?
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[ "geography, time variation, cloud cover, and the land available to humans" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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a5037affd7fc4ed0ade04c039289899a
In the 1880s, who constructed the first solar cell?
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{ "text": [ "Charles Fritts" ], "char_spans": [ { "start": [ 327 ], "end": [ 340 ] } ], "token_spans": [ { "start": [ 59 ], "end": [ 60 ] } ] }
[ "Charles Fritts" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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59a8e79968694d96beee19b280e7b8f9
In what year was the crystalline silicon solar cell constructed?
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{ "text": [ "1954" ], "char_spans": [ { "start": [ 819 ], "end": [ 822 ] } ], "token_spans": [ { "start": [ 146 ], "end": [ 146 ] } ] }
[ "1954" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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4c2536ceabab4c7ea21b6a1757264d34
What has happened to photovoltaic in the past 20 years?
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[ "evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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4dfb31dcc95345cbbfbc7dd4def48106
What is a solar cell?
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{ "text": [ "a device that converts light directly into electricity" ], "char_spans": [ { "start": [ 200 ], "end": [ 253 ] } ], "token_spans": [ { "start": [ 39 ], "end": [ 46 ] } ] }
[ "a device that converts light directly into electricity" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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9a9d4c6f22044b0b84e8b04960b5379b
Who created the first solar cell?
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{ "text": [ "Charles Fritts" ], "char_spans": [ { "start": [ 327 ], "end": [ 340 ] } ], "token_spans": [ { "start": [ 59 ], "end": [ 60 ] } ] }
[ "Charles Fritts" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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7b84e43b48f64fd29b639f9b2db1ada7
Who created the first solar cell using silver selenide in place of copper oxide?
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{ "text": [ "Dr Bruno Lange" ], "char_spans": [ { "start": [ 383 ], "end": [ 396 ] } ], "token_spans": [ { "start": [ 71 ], "end": [ 73 ] } ] }
[ "Dr Bruno Lange" ]
SQuAD
In the last two decades, photovoltaics (PV), also known as solar PV, has evolved from a pure niche market of small scale applications towards becoming a mainstream electricity source. A solar cell is a device that converts light directly into electricity using the photoelectric effect. The first solar cell was construc...
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b849cd440b0340d38738700afca37941
Who created the crystalline silicon solar cell?
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{ "text": [ "Gerald Pearson, Calvin Fuller and Daryl Chapin" ], "char_spans": [ { "start": [ 726 ], "end": [ 771 ] } ], "token_spans": [ { "start": [ 131 ], "end": [ 138 ] } ] }
[ "Gerald Pearson, Calvin Fuller and Daryl Chapin" ]
SQuAD
It is an important source of renewable energy and its technologies are broadly characterized as either passive solar or active solar depending on the way they capture and distribute solar energy or convert it into solar power. Active solar techniques include the use of photovoltaic systems, concentrated solar power and...
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994c5098bde242818b0237f6e69882fc
What are the technologies used to capture solar energy characterized as?
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{ "text": [ "passive solar or active solar" ], "char_spans": [ { "start": [ 103 ], "end": [ 131 ] } ], "token_spans": [ { "start": [ 16 ], "end": [ 20 ] } ] }
[ "passive solar or active solar" ]
SQuAD
It is an important source of renewable energy and its technologies are broadly characterized as either passive solar or active solar depending on the way they capture and distribute solar energy or convert it into solar power. Active solar techniques include the use of photovoltaic systems, concentrated solar power and...
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ae025aacb91a4d08a574adadecf993db
What are some active solar techniques used to harness solar energy?
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{ "text": [ "photovoltaic systems, concentrated solar power and solar water heating" ], "char_spans": [ { "start": [ 270 ], "end": [ 339 ] } ], "token_spans": [ { "start": [ 45 ], "end": [ 54 ] } ] }
[ "photovoltaic systems, concentrated solar power and solar water heating" ]
SQuAD
It is an important source of renewable energy and its technologies are broadly characterized as either passive solar or active solar depending on the way they capture and distribute solar energy or convert it into solar power. Active solar techniques include the use of photovoltaic systems, concentrated solar power and...
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What is an example of a passive solar technique?
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{ "text": [ "orienting a building to the Sun" ], "char_spans": [ { "start": [ 397 ], "end": [ 427 ] } ], "token_spans": [ { "start": [ 64 ], "end": [ 69 ] } ] }
[ "orienting a building to the Sun" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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18539c42b2774411895ea5fb17db316f
What is the name of the solar powered car race held every two years?
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{ "text": [ "The World Solar Challenge" ], "char_spans": [ { "start": [ 81 ], "end": [ 105 ] } ], "token_spans": [ { "start": [ 16 ], "end": [ 19 ] } ] }
[ "The World Solar Challenge" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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a7c12ec774ff4702a2411f733d40a0cd
What was the winner of the World Solar Challenge's average speed in 2007 in km/h?
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{ "text": [ "90.87" ], "char_spans": [ { "start": [ 430 ], "end": [ 434 ] } ], "token_spans": [ { "start": [ 84 ], "end": [ 84 ] } ] }
[ "90.87" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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What is The World Solar Challenge?
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[ "a biannual solar-powered car race" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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db766a52e9fc41c6b027aae95abf67e2
When was The World Solar Challenge started?
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[ "1987" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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What was the average speed of a winning solar powered car in 1987?
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[ "67 kilometres per hour (42 mph)" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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What was the average speed of a winning solar powered car by 2007?
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[ "90.87 kilometres per hour (56.46 mph)" ]
SQuAD
Development of a solar-powered car has been an engineering goal since the 1980s. The World Solar Challenge is a biannual solar-powered car race, where teams from universities and enterprises compete over 3,021 kilometres (1,877 mi) across central Australia from Darwin to Adelaide. In 1987, when it was founded, the winn...
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What are some other similar car races that use solar powered vehicles?
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{ "text": [ "The North American Solar Challenge and the planned South African Solar Challenge" ], "char_spans": [ { "start": [ 469 ], "end": [ 548 ] } ], "token_spans": [ { "start": [ 93 ], "end": [ 104 ] } ]...
[ "The North American Solar Challenge and the planned South African Solar Challenge" ]
SQuAD
Urban heat islands (UHI) are metropolitan areas with higher temperatures than that of the surrounding environment. The higher temperatures are a result of increased absorption of the Solar light by urban materials such as asphalt and concrete, which have lower albedos and higher heat capacities than those in the natura...
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UHI is an abbreviation of what?
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[ "Urban heat islands" ]
SQuAD
Urban heat islands (UHI) are metropolitan areas with higher temperatures than that of the surrounding environment. The higher temperatures are a result of increased absorption of the Solar light by urban materials such as asphalt and concrete, which have lower albedos and higher heat capacities than those in the natura...
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A program in Los Angeles believes that with $1 billion, city temperatures could be reduced by approximately how many degrees in Celsius?
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[ "3" ]
SQuAD
Urban heat islands (UHI) are metropolitan areas with higher temperatures than that of the surrounding environment. The higher temperatures are a result of increased absorption of the Solar light by urban materials such as asphalt and concrete, which have lower albedos and higher heat capacities than those in the natura...
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What are the metropolitan areas with higher temperatures than the surrounding areas called?
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[ "Urban heat islands" ]
SQuAD
Urban heat islands (UHI) are metropolitan areas with higher temperatures than that of the surrounding environment. The higher temperatures are a result of increased absorption of the Solar light by urban materials such as asphalt and concrete, which have lower albedos and higher heat capacities than those in the natura...
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What materials absorb sunlight and create higher temperatures than natural materials?
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[ "asphalt and concrete" ]
SQuAD
Urban heat islands (UHI) are metropolitan areas with higher temperatures than that of the surrounding environment. The higher temperatures are a result of increased absorption of the Solar light by urban materials such as asphalt and concrete, which have lower albedos and higher heat capacities than those in the natura...
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What is a way to reduce the high temperatures created in urban heat islands?
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{ "text": [ "paint buildings and roads white and plant trees" ], "char_spans": [ { "start": [ 398 ], "end": [ 444 ] } ], "token_spans": [ { "start": [ 66 ], "end": [ 73 ] } ] }
[ "paint buildings and roads white and plant trees" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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The oil embargo in what year was a contributing factor to the reorganization of energy policies?
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{ "text": [ "1973" ], "char_spans": [ { "start": [ 4 ], "end": [ 7 ] } ], "token_spans": [ { "start": [ 1 ], "end": [ 1 ] } ] }
[ "1973" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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What brought attention to solar technologies in the 1970s?
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[ "The 1973 oil embargo and 1979 energy crisis" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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What are the names of some of the incentive programs used to promote solar technology?
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[ "the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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What is the name of the solar energy research facility in the US?
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{ "text": [ "SERI, now NREL" ], "char_spans": [ { "start": [ 389 ], "end": [ 402 ] } ], "token_spans": [ { "start": [ 61 ], "end": [ 64 ] } ] }
[ "SERI, now NREL" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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What is the name of the solar energy research facility in Japan?
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{ "text": [ "NEDO" ], "char_spans": [ { "start": [ 413 ], "end": [ 416 ] } ], "token_spans": [ { "start": [ 69 ], "end": [ 69 ] } ] }
[ "NEDO" ]
SQuAD
The 1973 oil embargo and 1979 energy crisis caused a reorganization of energy policies around the world and brought renewed attention to developing solar technologies. Deployment strategies focused on incentive programs such as the Federal Photovoltaic Utilization Program in the US and the Sunshine Program in Japan. Ot...
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What is the name of the solar energy research facility in Germany?
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{ "text": [ "Fraunhofer Institute for Solar Energy Systems ISE" ], "char_spans": [ { "start": [ 433 ], "end": [ 481 ] } ], "token_spans": [ { "start": [ 75 ], "end": [ 81 ] } ] }
[ "Fraunhofer Institute for Solar Energy Systems ISE" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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During the Little Ice Age, what did English and French farmers use to increase collection of solar energy?
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{ "text": [ "fruit walls" ], "char_spans": [ { "start": [ 506 ], "end": [ 516 ] } ], "token_spans": [ { "start": [ 82 ], "end": [ 83 ] } ] }
[ "fruit walls" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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Vinters have adopted solar technology to do what?
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{ "text": [ "power grape presses" ], "char_spans": [ { "start": [ 1168 ], "end": [ 1186 ] } ], "token_spans": [ { "start": [ 198 ], "end": [ 200 ] } ] }
[ "power grape presses" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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Why do agriculture and horticulture seek to make the most use of the solar energy captured?
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[ "to optimize the productivity of plants" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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What are some techniques used to improve crop production?
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[ "timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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1dc5d04a46d5485e9bed6c33fb8aac8b
What did French and English farmers do during the Little Ice Age to gain more solar energy?
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{ "text": [ "employed fruit walls" ], "char_spans": [ { "start": [ 497 ], "end": [ 516 ] } ], "token_spans": [ { "start": [ 81 ], "end": [ 83 ] } ] }
[ "employed fruit walls" ]
SQuAD
Agriculture and horticulture seek to optimize the capture of solar energy in order to optimize the productivity of plants. Techniques such as timed planting cycles, tailored row orientation, staggered heights between rows and the mixing of plant varieties can improve crop yields. While sunlight is generally considered ...
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What was the purpose of the fruit walls built by French and English farmers?
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{ "text": [ "acted as thermal masses and accelerated ripening by keeping plants warm" ], "char_spans": [ { "start": [ 574 ], "end": [ 644 ] } ], "token_spans": [ { "start": [ 94 ], "end": [ 104 ] } ] }
[ "acted as thermal masses and accelerated ripening by keeping plants warm" ]
SQuAD
Tajikistan's economy grew substantially after the war. The GDP of Tajikistan expanded at an average rate of 9.6% over the period of 2000–2007 according to the World Bank data. This improved Tajikistan's position among other Central Asian countries (namely Turkmenistan and Uzbekistan), which seem to have degraded econom...
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What was the rate that the GDP expanded?
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[ "an average rate of 9.6%" ]
SQuAD
Tajikistan's economy grew substantially after the war. The GDP of Tajikistan expanded at an average rate of 9.6% over the period of 2000–2007 according to the World Bank data. This improved Tajikistan's position among other Central Asian countries (namely Turkmenistan and Uzbekistan), which seem to have degraded econom...
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What is the primary source of income in Tajikistan?
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{ "text": [ "aluminium production, cotton growing and remittances from migrant workers" ], "char_spans": [ { "start": [ 387 ], "end": [ 459 ] } ], "token_spans": [ { "start": [ 67 ], "end": [ 76 ] } ] }
[ "aluminium production, cotton growing and remittances from migrant workers" ]
SQuAD
Tajikistan's economy grew substantially after the war. The GDP of Tajikistan expanded at an average rate of 9.6% over the period of 2000–2007 according to the World Bank data. This improved Tajikistan's position among other Central Asian countries (namely Turkmenistan and Uzbekistan), which seem to have degraded econom...
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What accounts for 60% of the agricultural output?
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{ "text": [ "60%" ], "char_spans": [ { "start": [ 482 ], "end": [ 484 ] } ], "token_spans": [ { "start": [ 81 ], "end": [ 82 ] } ] }
[ "60%" ]
SQuAD
Tajikistan's economy grew substantially after the war. The GDP of Tajikistan expanded at an average rate of 9.6% over the period of 2000–2007 according to the World Bank data. This improved Tajikistan's position among other Central Asian countries (namely Turkmenistan and Uzbekistan), which seem to have degraded econom...
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What is the name of the state owned company that produces aluminium?
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{ "text": [ "Tajik Aluminum Company" ], "char_spans": [ { "start": [ 647 ], "end": [ 668 ] } ], "token_spans": [ { "start": [ 114 ], "end": [ 116 ] } ] }
[ "Tajik Aluminum Company" ]
SQuAD
Hydrogen production technologies been a significant area of solar chemical research since the 1970s. Aside from electrolysis driven by photovoltaic or photochemical cells, several thermochemical processes have also been explored. One such route uses concentrators to split water into oxygen and hydrogen at high temperat...
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What is the name of the process under development at the Weizmann Institute?
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{ "text": [ "The Solzinc process" ], "char_spans": [ { "start": [ 688 ], "end": [ 706 ] } ], "token_spans": [ { "start": [ 103 ], "end": [ 105 ] } ] }
[ "The Solzinc process" ]
SQuAD
Hydrogen production technologies been a significant area of solar chemical research since the 1970s. Aside from electrolysis driven by photovoltaic or photochemical cells, several thermochemical processes have also been explored. One such route uses concentrators to split water into oxygen and hydrogen at high temperat...
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The Solznic process produces what?
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{ "text": [ "pure zinc" ], "char_spans": [ { "start": [ 882 ], "end": [ 890 ] } ], "token_spans": [ { "start": [ 141 ], "end": [ 142 ] } ] }
[ "pure zinc" ]
SQuAD
Hydrogen production technologies been a significant area of solar chemical research since the 1970s. Aside from electrolysis driven by photovoltaic or photochemical cells, several thermochemical processes have also been explored. One such route uses concentrators to split water into oxygen and hydrogen at high temperat...
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What has been a main area of solar chemical research since the 1970s?
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{ "text": [ "Hydrogen production technologies" ], "char_spans": [ { "start": [ 0 ], "end": [ 31 ] } ], "token_spans": [ { "start": [ 0 ], "end": [ 2 ] } ] }
[ "Hydrogen production technologies" ]
SQuAD
Hydrogen production technologies been a significant area of solar chemical research since the 1970s. Aside from electrolysis driven by photovoltaic or photochemical cells, several thermochemical processes have also been explored. One such route uses concentrators to split water into oxygen and hydrogen at high temperat...
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What is one of the thermochemical processes that has been explored besides electrolysis?
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{ "text": [ "uses concentrators to split water into oxygen and hydrogen at high temperatures" ], "char_spans": [ { "start": [ 245 ], "end": [ 323 ] } ], "token_spans": [ { "start": [ 36 ], "end": [ 47 ] } ] }
[ "uses concentrators to split water into oxygen and hydrogen at high temperatures" ]
SQuAD
Hydrogen production technologies been a significant area of solar chemical research since the 1970s. Aside from electrolysis driven by photovoltaic or photochemical cells, several thermochemical processes have also been explored. One such route uses concentrators to split water into oxygen and hydrogen at high temperat...
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What is the name of the process being developed by the Weizmann Institute?
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{ "text": [ "Solzinc process" ], "char_spans": [ { "start": [ 692 ], "end": [ 706 ] } ], "token_spans": [ { "start": [ 104 ], "end": [ 105 ] } ] }
[ "Solzinc process" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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Paraffin wax is an example of what kind of storage media?
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{ "text": [ "thermal" ], "char_spans": [ { "start": [ 75 ], "end": [ 81 ] } ], "token_spans": [ { "start": [ 13 ], "end": [ 13 ] } ] }
[ "thermal" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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The first Glauber's salt heating system was first used where?
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{ "text": [ "The \"Dover House\"" ], "char_spans": [ { "start": [ 232 ], "end": [ 248 ] } ], "token_spans": [ { "start": [ 42 ], "end": [ 46 ] } ] }
[ "The \"Dover House\"" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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What are some examples of phase change materials?
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[ "paraffin wax and Glauber's salt" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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What are the approximate temperatures that can be delivered by phase change materials?
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{ "text": [ "64 °C or 147 °F" ], "char_spans": [ { "start": [ 214 ], "end": [ 228 ] } ], "token_spans": [ { "start": [ 33 ], "end": [ 39 ] } ] }
[ "64 °C or 147 °F" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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What was the name of the heating system that first used Glauber's salt?
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{ "text": [ "Dover House" ], "char_spans": [ { "start": [ 237 ], "end": [ 247 ] } ], "token_spans": [ { "start": [ 44 ], "end": [ 45 ] } ] }
[ "Dover House" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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Why are salts good for thermal storage?
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{ "text": [ "they are low-cost, have a high specific heat capacity and can deliver heat at temperatures compatible with conventional power systems" ], "char_spans": [ { "start": [ 458 ], "end": [ 590 ] } ], "token_spans": [ { "start": [ 88 ...
[ "they are low-cost, have a high specific heat capacity and can deliver heat at temperatures compatible with conventional power systems" ]
SQuAD
Phase change materials such as paraffin wax and Glauber's salt are another thermal storage media. These materials are inexpensive, readily available, and can deliver domestically useful temperatures (approximately 64 °C or 147 °F). The "Dover House" (in Dover, Massachusetts) was the first to use a Glauber's salt heatin...
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How much energy was the Solar Two able to store using salts?
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{ "text": [ "1.44 terajoules (400,000 kWh)" ], "char_spans": [ { "start": [ 664 ], "end": [ 692 ] } ], "token_spans": [ { "start": [ 126 ], "end": [ 131 ] } ] }
[ "1.44 terajoules (400,000 kWh)" ]
SQuAD
Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoele...
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What is solar power?
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{ "text": [ "conversion of sunlight into electricity" ], "char_spans": [ { "start": [ 19 ], "end": [ 57 ] } ], "token_spans": [ { "start": [ 4 ], "end": [ 8 ] } ] }
[ "conversion of sunlight into electricity" ]
SQuAD
Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoele...
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How is sunlight converted into electricity?
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[ "either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP)" ]
SQuAD
Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoele...
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What does a concentrated solar power system use?
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{ "text": [ "lenses or mirrors and tracking systems" ], "char_spans": [ { "start": [ 170 ], "end": [ 207 ] } ], "token_spans": [ { "start": [ 31 ], "end": [ 36 ] } ] }
[ "lenses or mirrors and tracking systems" ]
SQuAD
Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoele...
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What is the purpose of a concentrated solar power system?
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{ "text": [ "focus a large area of sunlight into a small beam" ], "char_spans": [ { "start": [ 212 ], "end": [ 259 ] } ], "token_spans": [ { "start": [ 38 ], "end": [ 47 ] } ] }
[ "focus a large area of sunlight into a small beam" ]
SQuAD
Solar power is the conversion of sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). CSP systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. PV converts light into electric current using the photoele...
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What method does the photovoltaics system use to turn light into electricity?
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{ "text": [ "photoelectric effect" ], "char_spans": [ { "start": [ 312 ], "end": [ 331 ] } ], "token_spans": [ { "start": [ 57 ], "end": [ 58 ] } ] }
[ "photoelectric effect" ]
SQuAD
Beginning with the surge in coal use which accompanied the Industrial Revolution, energy consumption has steadily transitioned from wood and biomass to fossil fuels. The early development of solar technologies starting in the 1860s was driven by an expectation that coal would soon become scarce. However, development of...
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Why was solar technology developed in the 1860s?
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{ "text": [ "driven by an expectation that coal would soon become scarce" ], "char_spans": [ { "start": [ 236 ], "end": [ 294 ] } ], "token_spans": [ { "start": [ 37 ], "end": [ 46 ] } ] }
[ "driven by an expectation that coal would soon become scarce" ]
SQuAD
Beginning with the surge in coal use which accompanied the Industrial Revolution, energy consumption has steadily transitioned from wood and biomass to fossil fuels. The early development of solar technologies starting in the 1860s was driven by an expectation that coal would soon become scarce. However, development of...
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What slowed the development of solar technologies in the early 20th century?
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{ "text": [ "increasing availability, economy, and utility of coal and petroleum" ], "char_spans": [ { "start": [ 395 ], "end": [ 461 ] } ], "token_spans": [ { "start": [ 65 ], "end": [ 75 ] } ] }
[ "increasing availability, economy, and utility of coal and petroleum" ]
SQuAD
Solar chemical processes use solar energy to drive chemical reactions. These processes offset energy that would otherwise come from a fossil fuel source and can also convert solar energy into storable and transportable fuels. Solar induced chemical reactions can be divided into thermochemical or photochemical. A variet...
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What is a possible alternative to making carbon-based fuels from reduction of carbon dioxide?
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{ "text": [ "hydrogen production from protons" ], "char_spans": [ { "start": [ 547 ], "end": [ 578 ] } ], "token_spans": [ { "start": [ 87 ], "end": [ 90 ] } ] }
[ "hydrogen production from protons" ]
SQuAD
Solar chemical processes use solar energy to drive chemical reactions. These processes offset energy that would otherwise come from a fossil fuel source and can also convert solar energy into storable and transportable fuels. Solar induced chemical reactions can be divided into thermochemical or photochemical. A variet...
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What process converts solar energy into storable and transportable fuels?
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{ "text": [ "Solar chemical processes" ], "char_spans": [ { "start": [ 0 ], "end": [ 23 ] } ], "token_spans": [ { "start": [ 0 ], "end": [ 2 ] } ] }
[ "Solar chemical processes" ]
SQuAD
Solar chemical processes use solar energy to drive chemical reactions. These processes offset energy that would otherwise come from a fossil fuel source and can also convert solar energy into storable and transportable fuels. Solar induced chemical reactions can be divided into thermochemical or photochemical. A variet...
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What solar process can be used to produce different fuels?
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{ "text": [ "artificial photosynthesis" ], "char_spans": [ { "start": [ 350 ], "end": [ 374 ] } ], "token_spans": [ { "start": [ 56 ], "end": [ 57 ] } ] }
[ "artificial photosynthesis" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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The solar water heaters introduced in the US in the 1890s saw growth until what time period?
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{ "text": [ "the 1920s" ], "char_spans": [ { "start": [ 121 ], "end": [ 129 ] } ], "token_spans": [ { "start": [ 20 ], "end": [ 21 ] } ] }
[ "the 1920s" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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Since 1999, what average rate has the solar water heating sector progressed at?
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{ "text": [ "20% per year" ], "char_spans": [ { "start": [ 503 ], "end": [ 514 ] } ], "token_spans": [ { "start": [ 83 ], "end": [ 86 ] } ] }
[ "20% per year" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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When did the use of solar water heaters in the US first begin?
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{ "text": [ "in the 1890s" ], "char_spans": [ { "start": [ 68 ], "end": [ 79 ] } ], "token_spans": [ { "start": [ 10 ], "end": [ 12 ] } ] }
[ "in the 1890s" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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Why did interest in solar water heating decrease in the 1980s?
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{ "text": [ "falling petroleum prices" ], "char_spans": [ { "start": [ 359 ], "end": [ 382 ] } ], "token_spans": [ { "start": [ 62 ], "end": [ 64 ] } ] }
[ "falling petroleum prices" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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Growth of solar water heating development has averaged how much per year since 1999
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{ "text": [ "20%" ], "char_spans": [ { "start": [ 503 ], "end": [ 505 ] } ], "token_spans": [ { "start": [ 83 ], "end": [ 84 ] } ] }
[ "20%" ]
SQuAD
Commercial solar water heaters began appearing in the United States in the 1890s. These systems saw increasing use until the 1920s but were gradually replaced by cheaper and more reliable heating fuels. As with photovoltaics, solar water heating attracted renewed attention as a result of the oil crises in the 1970s but...
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What was the estimated capacity of solar water heating and cooling in 2007?
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{ "text": [ "154 GW" ], "char_spans": [ { "start": [ 677 ], "end": [ 682 ] } ], "token_spans": [ { "start": [ 113 ], "end": [ 114 ] } ] }
[ "154 GW" ]
SQuAD
A solar balloon is a black balloon that is filled with ordinary air. As sunlight shines on the balloon, the air inside is heated and expands causing an upward buoyancy force, much like an artificially heated hot air balloon. Some solar balloons are large enough for human flight, but usage is generally limited to the to...
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What is a solar balloon?
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{ "text": [ "a black balloon that is filled with ordinary air" ], "char_spans": [ { "start": [ 19 ], "end": [ 66 ] } ], "token_spans": [ { "start": [ 4 ], "end": [ 12 ] } ] }
[ "a black balloon that is filled with ordinary air" ]
SQuAD
A solar balloon is a black balloon that is filled with ordinary air. As sunlight shines on the balloon, the air inside is heated and expands causing an upward buoyancy force, much like an artificially heated hot air balloon. Some solar balloons are large enough for human flight, but usage is generally limited to the to...
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What happens when sunlight shines on a solar balloon?
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{ "text": [ "the air inside is heated and expands causing an upward buoyancy force" ], "char_spans": [ { "start": [ 104 ], "end": [ 172 ] } ], "token_spans": [ { "start": [ 21 ], "end": [ 32 ] } ] }
[ "the air inside is heated and expands causing an upward buoyancy force" ]
SQuAD
A solar balloon is a black balloon that is filled with ordinary air. As sunlight shines on the balloon, the air inside is heated and expands causing an upward buoyancy force, much like an artificially heated hot air balloon. Some solar balloons are large enough for human flight, but usage is generally limited to the to...
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What is the use of solar balloons typically limited to?
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{ "text": [ "the toy market" ], "char_spans": [ { "start": [ 314 ], "end": [ 327 ] } ], "token_spans": [ { "start": [ 59 ], "end": [ 61 ] } ] }
[ "the toy market" ]
SQuAD
A solar balloon is a black balloon that is filled with ordinary air. As sunlight shines on the balloon, the air inside is heated and expands causing an upward buoyancy force, much like an artificially heated hot air balloon. Some solar balloons are large enough for human flight, but usage is generally limited to the to...
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Why is the use of solar balloons typically limited to the toy market?
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{ "text": [ "the surface-area to payload-weight ratio is relatively high" ], "char_spans": [ { "start": [ 332 ], "end": [ 390 ] } ], "token_spans": [ { "start": [ 63 ], "end": [ 74 ] } ] }
[ "the surface-area to payload-weight ratio is relatively high" ]
SQuAD
In 2011, the International Energy Agency said that "the development of affordable, inexhaustible and clean solar energy technologies will have huge longer-term benefits. It will increase countries’ energy security through reliance on an indigenous, inexhaustible and mostly import-independent resource, enhance sustainab...
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How will solar energy increase energy security?
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{ "text": [ "through reliance on an indigenous, inexhaustible and mostly import-independent resource" ], "char_spans": [ { "start": [ 214 ], "end": [ 300 ] } ], "token_spans": [ { "start": [ 36 ], "end": [ 48 ] ...
[ "through reliance on an indigenous, inexhaustible and mostly import-independent resource" ]
SQuAD
In 2011, the International Energy Agency said that "the development of affordable, inexhaustible and clean solar energy technologies will have huge longer-term benefits. It will increase countries’ energy security through reliance on an indigenous, inexhaustible and mostly import-independent resource, enhance sustainab...
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What costs will solar energy lower?
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{ "text": [ "the costs of mitigating global warming" ], "char_spans": [ { "start": [ 351 ], "end": [ 388 ] } ], "token_spans": [ { "start": [ 57 ], "end": [ 62 ] } ] }
[ "the costs of mitigating global warming" ]
SQuAD
In 2011, the International Energy Agency said that "the development of affordable, inexhaustible and clean solar energy technologies will have huge longer-term benefits. It will increase countries’ energy security through reliance on an indigenous, inexhaustible and mostly import-independent resource, enhance sustainab...
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What should the cost of incentives for producing solar energy be considered?
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{ "text": [ "learning investments" ], "char_spans": [ { "start": [ 557 ], "end": [ 576 ] } ], "token_spans": [ { "start": [ 91 ], "end": [ 92 ] } ] }
[ "learning investments" ]
SQuAD
In 2011, the International Energy Agency said that "the development of affordable, inexhaustible and clean solar energy technologies will have huge longer-term benefits. It will increase countries’ energy security through reliance on an indigenous, inexhaustible and mostly import-independent resource, enhance sustainab...
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What effect will solar energy have on the price of fossil fuels?
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{ "text": [ "keep fossil fuel prices lower than otherwise" ], "char_spans": [ { "start": [ 395 ], "end": [ 438 ] } ], "token_spans": [ { "start": [ 65 ], "end": [ 71 ] } ] }
[ "keep fossil fuel prices lower than otherwise" ]
SQuAD
In 2011, a report by the International Energy Agency found that solar energy technologies such as photovoltaics, solar hot water and concentrated solar power could provide a third of the world’s energy by 2060 if politicians commit to limiting climate change. The energy from the sun could play a key role in de-carboniz...
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According to a report in 2011, by what year could solar energy provide a third of the world's energy?
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{ "text": [ "2060" ], "char_spans": [ { "start": [ 205 ], "end": [ 208 ] } ], "token_spans": [ { "start": [ 36 ], "end": [ 36 ] } ] }
[ "2060" ]
SQuAD
In 2011, a report by the International Energy Agency found that solar energy technologies such as photovoltaics, solar hot water and concentrated solar power could provide a third of the world’s energy by 2060 if politicians commit to limiting climate change. The energy from the sun could play a key role in de-carboniz...
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What could the sun's energy do to help limit climate change?
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{ "text": [ "could play a key role in de-carbonizing the global economy alongside improvements in energy efficiency and imposing costs on greenhouse gas emitters" ], "char_spans": [ { "start": [ 284 ], "end": [ 431 ] } ], "token_spans": [ { "start"...
[ "could play a key role in de-carbonizing the global economy alongside improvements in energy efficiency and imposing costs on greenhouse gas emitters" ]
SQuAD
Geography effects solar energy potential because areas that are closer to the equator have a greater amount of solar radiation. However, the use of photovoltaics that can follow the position of the sun can significantly increase the solar energy potential in areas that are farther from the equator. Time variation effec...
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Why does geography have an effect of the amount of solar energy available?
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{ "text": [ "areas that are closer to the equator have a greater amount of solar radiation" ], "char_spans": [ { "start": [ 49 ], "end": [ 125 ] } ], "token_spans": [ { "start": [ 6 ], "end": [ 19 ] } ] }
[ "areas that are closer to the equator have a greater amount of solar radiation" ]
SQuAD
Geography effects solar energy potential because areas that are closer to the equator have a greater amount of solar radiation. However, the use of photovoltaics that can follow the position of the sun can significantly increase the solar energy potential in areas that are farther from the equator. Time variation effec...
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What is the process called that can increase solar energy in areas further away from the earth's equator?
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{ "text": [ "photovoltaics" ], "char_spans": [ { "start": [ 148 ], "end": [ 160 ] } ], "token_spans": [ { "start": [ 26 ], "end": [ 26 ] } ] }
[ "photovoltaics" ]
SQuAD
Geography effects solar energy potential because areas that are closer to the equator have a greater amount of solar radiation. However, the use of photovoltaics that can follow the position of the sun can significantly increase the solar energy potential in areas that are farther from the equator. Time variation effec...
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Why does time have an effect of the amount of available solar energy?
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{ "text": [ "during the nighttime there is little solar radiation on the surface of the Earth for solar panels to absorb" ], "char_spans": [ { "start": [ 361 ], "end": [ 467 ] } ], "token_spans": [ { "start": [ 60 ], "end": [ ...
[ "during the nighttime there is little solar radiation on the surface of the Earth for solar panels to absorb" ]
SQuAD
Geography effects solar energy potential because areas that are closer to the equator have a greater amount of solar radiation. However, the use of photovoltaics that can follow the position of the sun can significantly increase the solar energy potential in areas that are farther from the equator. Time variation effec...
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What effect does cloud coverage have on the amount of solar energy available?
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{ "text": [ "clouds block incoming light from the sun and reduce the light available for solar cells" ], "char_spans": [ { "start": [ 605 ], "end": [ 691 ] } ], "token_spans": [ { "start": [ 105 ], "end": [ 119 ] ...
[ "clouds block incoming light from the sun and reduce the light available for solar cells" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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The Solar Total Energy Project had a field of how many parabolic dishes?
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{ "text": [ "114" ], "char_spans": [ { "start": [ 273 ], "end": [ 275 ] } ], "token_spans": [ { "start": [ 45 ], "end": [ 45 ] } ] }
[ "114" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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Are transpired collectors more or less cost-effective than glazed collection systems?
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{ "text": [ "more" ], "char_spans": [ { "start": [ 1444 ], "end": [ 1447 ] } ], "token_spans": [ { "start": [ 259 ], "end": [ 259 ] } ] }
[ "more" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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What are some examples of solar concentrating technologies?
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{ "text": [ "parabolic dish, trough and Scheffler reflectors" ], "char_spans": [ { "start": [ 41 ], "end": [ 87 ] } ], "token_spans": [ { "start": [ 5 ], "end": [ 11 ] } ] }
[ "parabolic dish, trough and Scheffler reflectors" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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What was the first commercial solar concentrating system?
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{ "text": [ "Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA" ], "char_spans": [ { "start": [ 194 ], "end": [ 254 ] } ], "token_spans": [ { "start": [ 28 ], "end": [ 40 ] } ] }
[ "Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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What is one of the oldest uses of solar energy?
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{ "text": [ "use of evaporation ponds to obtain salt from sea water" ], "char_spans": [ { "start": [ 686 ], "end": [ 739 ] } ], "token_spans": [ { "start": [ 117 ], "end": [ 126 ] } ] }
[ "use of evaporation ponds to obtain salt from sea water" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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1c892d6fc4b4455aa2d0ed4b697021f7
What are some items used to dry clothes without the use of electricity?
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{ "text": [ "Clothes lines, clotheshorses, and clothes racks" ], "char_spans": [ { "start": [ 913 ], "end": [ 959 ] } ], "token_spans": [ { "start": [ 155 ], "end": [ 162 ] } ] }
[ "Clothes lines, clotheshorses, and clothes racks" ]
SQuAD
Solar concentrating technologies such as parabolic dish, trough and Scheffler reflectors can provide process heat for commercial and industrial applications. The first commercial system was the Solar Total Energy Project (STEP) in Shenandoah, Georgia, USA where a field of 114 parabolic dishes provided 50% of the proces...
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What are Unglazed transpired collectors?
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{ "text": [ "perforated sun-facing walls used for preheating ventilation air" ], "char_spans": [ { "start": [ 1178 ], "end": [ 1240 ] } ], "token_spans": [ { "start": [ 201 ], "end": [ 210 ] } ] }
[ "perforated sun-facing walls used for preheating ventilation air" ]
SQuAD
Tajiks began to be conscripted into the Soviet Army in 1939 and during World War II around 260,000 Tajik citizens fought against Germany, Finland and Japan. Between 60,000(4%) and 120,000(8%) of Tajikistan's 1,530,000 citizens were killed during World War II. Following the war and Stalin's reign attempts were made to f...
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When did Tajiks start being part of the Soviet Army?
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{ "text": [ "1939" ], "char_spans": [ { "start": [ 55 ], "end": [ 58 ] } ], "token_spans": [ { "start": [ 10 ], "end": [ 10 ] } ] }
[ "1939" ]