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The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.
The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.
The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter. To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.
The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.
The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einstein's theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Dirac's explanation of charge quantization and fix an asymmetry in Maxwell's equations of electromagnetism.
The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).
Q. For each of the following statements, select Yes if the statement is supported by the evidence provided. Otherwise, select No.
1. With a construction budget of $30 million, the Storinian government will be able to search for a proof of an explanation of charge quantization and to help resolve a controversy by measuring the speed of neutrinos produced in nuclear reactors.
2. In its Antarctic experiments, the Storinian government will attempt to ascertain the mass and speed of cosmic rays and to confirm the composition of magnetic monopoles.
3. If the PEN-NO experiment is kept in operation on the surface of the ice in Antarctica, its findings will be considered more valid than those produced by the experiment as currently envisioned.
  • a)
    1-No, 2-No, 3-No
  • b)
    1-No, 2-Yes, 3-No
  • c)
    1-Yes, 2-No, 3-Yes
Correct answer is option 'A'. Can you explain this answer?
Most Upvoted Answer
The government of Storinia has proposed to conduct several particle ph...
1. No.
Don’t assume that the detectors cost an equal amount of money! Using letters for construction costs, you know that U + P 4- M = $42 million, and also can assume that none of these amounts is $0 or less (positive costs are legitimate to assume). However, we can’t conclude anything about P + M, other than P + M is less than $42 million and greater than $0. Is P + M less than or equal to $30 million? You don’t know.
2. No.
This statement is a classic case of word salad tossed for you fresh from the passage. You do not know whether the experiments will measure the “mass and speed of cosmic rays.” What will the experiments do with cosmic rays? They will attempt to ascertain their identity, composition, and extraterrestrial origin—perhaps by measuring their mass and speed, in fact, but you are not told this.
Moreover, the experiments will attempt to verify the existence of magnetic monopoles, not confirm their composition, an intent that clearly implies that these particles have already been discovered. You know that they have not yet been discovered because they are called “hypothetical subatomic particlespostulated by some physical theories.”
3. No. 
The Proposal tab tells you that “to prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.” This text clearly implies that if PEN-NO is not buried in the ice (and is instead kept on the surface), there could be “spurious results from cosmic rays.” “Spurious” means “extra, false, deceptive,” so the overall results from PEN-NO would be considered less valid in this case, not more valid.
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The government of Storinia has proposed to conduct several particle ph...
1. No.
Don’t assume that the detectors cost an equal amount of money! Using letters for construction costs, you know that U + P 4- M = $42 million, and also can assume that none of these amounts is $0 or less (positive costs are legitimate to assume). However, we can’t conclude anything about P + M, other than P + M is less than $42 million and greater than $0. Is P + M less than or equal to $30 million? You don’t know.
2. No.
This statement is a classic case of word salad tossed for you fresh from the passage. You do not know whether the experiments will measure the “mass and speed of cosmic rays.” What will the experiments do with cosmic rays? They will attempt to ascertain their identity, composition, and extraterrestrial origin—perhaps by measuring their mass and speed, in fact, but you are not told this.
Moreover, the experiments will attempt to verify the existence of magnetic monopoles, not confirm their composition, an intent that clearly implies that these particles have already been discovered. You know that they have not yet been discovered because they are called “hypothetical subatomic particlespostulated by some physical theories.”
3. No. 
The Proposal tab tells you that “to prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.” This text clearly implies that if PEN-NO is not buried in the ice (and is instead kept on the surface), there could be “spurious results from cosmic rays.” “Spurious” means “extra, false, deceptive,” so the overall results from PEN-NO would be considered less valid in this case, not more valid.
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The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q. For each of the following particle types, select Can Conclude if you can conclude from the informationprovided that the particles in question have a minimal effect on ordinary matter. Otherwise,select Cannot Conclude.1.Ultra-high-energy cosmic ray2.Neutrinos produced in particle accelerators3.Magnetic monopole

The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).According to the information provided, the proposed measurement of which of the followingkinds of particles is intended to improve the quality of estimation of the mass of these particles?

Experts anticipate that global atmospheric concentrations of carbon dioxide (CO2) will have doubled by the end of the twenty-first century. It is known that CO2 can contribute to global warming by (5) trapping solar energy that is being reradiated as heat from the Earth’s surface. However, some research has suggested that elevated CO2 levels could enhance the photosynthetic rates of plants, resulting in a lush world of agricultural abundance, and that this CO2 (10) fertilization effect might eventually decrease the rate of global warming. The increased vegetation in such an environment could be counted on to draw more CO2 from the atmosphere. The level of CO2 would thus increase at a lower rate than many experts have (15) predicted.However, while a number of recent studies confirm that plant growth would be generally enhanced in an atmosphere rich in CO2, they also suggest that increased CO2 would differentially increase the growth (20) rate of different species of plants, which could eventually result in decreased agricultural yields. Certain important crops such as corn and sugarcane that currently have higher photosynthetic efficiencies than other plants may lose that edge in an atmosphere (25) rich in CO2. Patterson and Flint have shown that these important crops may experience yield reductions because of the increased performance of certain weeds. Such differences in growth rates between plant species could also alter ecosystem stability. Studies have (30) shown that within rangeland regions, for example, a weedy grass grows much better with plentiful CO2 than do three other grasses. Because this weedy grass predisposes land to burning, its potential increase may lead to greater numbers of and more severe wildfires in (35) future rangeland communities.It is clear that the CO2 fertilization effect does not guarantee the lush world of agricultural abundance that once seemed likely, but what about the potential for the increased uptake of CO2 to decrease the rate of global (40) warming? Some studies suggest that the changes accompanying global warming will not improve the ability of terrestrial ecosystems to absorb CO2. Billings’ simulation of global warming conditions in wet tundra grasslands showed that the level of CO2 (45) actually increased. Plant growth did increase under these conditions because of warmer temperatures and increased CO2 levels. But as the permafrost melted, more peat (accumulated dead plant material) began to decompose. This process in turn liberated more CO2 to (50) the atmosphere. Billings estimated that if summer temperatures rose four degrees Celsius, the tundra would liberate 50 percent more CO2 than it does currently. In a warmer world, increased plant growth, which could absorb CO2 from the atmosphere, would (55) not compensate for this rapid increase in decomposition rates. This observation is particularly important because high-latitude habitats such as the tundra are expected to experience the greatest temperature increase.Which one of the following best describes the function of the last paragraph of the passage?

Experts anticipate that global atmospheric concentrations of carbon dioxide (CO2) will have doubled by the end of the twenty-first century. It is known that CO2 can contribute to global warming by (5) trapping solar energy that is being reradiated as heat from the Earth’s surface. However, some research has suggested that elevated CO2 levels could enhance the photosynthetic rates of plants, resulting in a lush world of agricultural abundance, and that this CO2 (10) fertilization effect might eventually decrease the rate of global warming. The increased vegetation in such an environment could be counted on to draw more CO2 from the atmosphere. The level of CO2 would thus increase at a lower rate than many experts have (15) predicted.However, while a number of recent studies confirm that plant growth would be generally enhanced in an atmosphere rich in CO2, they also suggest that increased CO2 would differentially increase the growth (20) rate of different species of plants, which could eventually result in decreased agricultural yields. Certain important crops such as corn and sugarcane that currently have higher photosynthetic efficiencies than other plants may lose that edge in an atmosphere (25) rich in CO2. Patterson and Flint have shown that these important crops may experience yield reductions because of the increased performance of certain weeds. Such differences in growth rates between plant species could also alter ecosystem stability. Studies have (30) shown that within rangeland regions, for example, a weedy grass grows much better with plentiful CO2 than do three other grasses. Because this weedy grass predisposes land to burning, its potential increase may lead to greater numbers of and more severe wildfires in (35) future rangeland communities.It is clear that the CO2 fertilization effect does not guarantee the lush world of agricultural abundance that once seemed likely, but what about the potential for the increased uptake of CO2 to decrease the rate of global (40) warming? Some studies suggest that the changes accompanying global warming will not improve the ability of terrestrial ecosystems to absorb CO2. Billings’ simulation of global warming conditions in wet tundra grasslands showed that the level of CO2 (45) actually increased. Plant growth did increase under these conditions because of warmer temperatures and increased CO2 levels. But as the permafrost melted, more peat (accumulated dead plant material) began to decompose. This process in turn liberated more CO2 to (50) the atmosphere. Billings estimated that if summer temperatures rose four degrees Celsius, the tundra would liberate 50 percent more CO2 than it does currently. In a warmer world, increased plant growth, which could absorb CO2 from the atmosphere, would (55) not compensate for this rapid increase in decomposition rates. This observation is particularly important because high-latitude habitats such as the tundra are expected to experience the greatest temperature increase.The passage suggests that the hypothesis mentioned in the first paragraph is not entirely accurate because it fails to take into account which one of the following in predicting the effects of increased vegetation on the rate of global warming?

Experts anticipate that global atmospheric concentrations of carbon dioxide (CO2) will have doubled by the end of the twenty-first century. It is known that CO2 can contribute to global warming by (5) trapping solar energy that is being reradiated as heat from the Earth’s surface. However, some research has suggested that elevated CO2 levels could enhance the photosynthetic rates of plants, resulting in a lush world of agricultural abundance, and that this CO2 (10) fertilization effect might eventually decrease the rate of global warming. The increased vegetation in such an environment could be counted on to draw more CO2 from the atmosphere. The level of CO2 would thus increase at a lower rate than many experts have (15) predicted.However, while a number of recent studies confirm that plant growth would be generally enhanced in an atmosphere rich in CO2, they also suggest that increased CO2 would differentially increase the growth (20) rate of different species of plants, which could eventually result in decreased agricultural yields. Certain important crops such as corn and sugarcane that currently have higher photosynthetic efficiencies than other plants may lose that edge in an atmosphere (25) rich in CO2. Patterson and Flint have shown that these important crops may experience yield reductions because of the increased performance of certain weeds. Such differences in growth rates between plant species could also alter ecosystem stability. Studies have (30) shown that within rangeland regions, for example, a weedy grass grows much better with plentiful CO2 than do three other grasses. Because this weedy grass predisposes land to burning, its potential increase may lead to greater numbers of and more severe wildfires in (35) future rangeland communities.It is clear that the CO2 fertilization effect does not guarantee the lush world of agricultural abundance that once seemed likely, but what about the potential for the increased uptake of CO2 to decrease the rate of global (40) warming? Some studies suggest that the changes accompanying global warming will not improve the ability of terrestrial ecosystems to absorb CO2. Billings’ simulation of global warming conditions in wet tundra grasslands showed that the level of CO2 (45) actually increased. Plant growth did increase under these conditions because of warmer temperatures and increased CO2 levels. But as the permafrost melted, more peat (accumulated dead plant material) began to decompose. This process in turn liberated more CO2 to (50) the atmosphere. Billings estimated that if summer temperatures rose four degrees Celsius, the tundra would liberate 50 percent more CO2 than it does currently. In a warmer world, increased plant growth, which could absorb CO2 from the atmosphere, would (55) not compensate for this rapid increase in decomposition rates. This observation is particularly important because high-latitude habitats such as the tundra are expected to experience the greatest temperature increase.The passage suggests that Patterson and Flint would be most likely to agree with which one of the following statements about increased levels of CO2 in the Earth’s atmosphere?

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The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer?
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The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? for GMAT 2024 is part of GMAT preparation. The Question and answers have been prepared according to the GMAT exam syllabus. Information about The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? covers all topics & solutions for GMAT 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer?.
Solutions for The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? in English & in Hindi are available as part of our courses for GMAT. Download more important topics, notes, lectures and mock test series for GMAT Exam by signing up for free.
Here you can find the meaning of The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer?, a detailed solution for The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? has been provided alongside types of The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice The government of Storinia has proposed to conduct several particle physics experiments in Antarctica, as described below.The ultra-high-energy cosmic ray detector (UHECR-D) will track a variety of subatomic particles traveling from outer space with exceptionally high kinetic energy by recording secondary showers of particles created by these UHECRs as they collide with the upper atmosphere.The polyethylene naphthalate neutrino observatory (PEN-NO) will search for neutrinos, extremely light and fast subatomic particles that interact only weakly with normal matter.To prevent spurious results from cosmic rays, PEN-NO will be buried deep below the ice.The magnetic monopole detector (MaMoD) will attempt to verify the existence of magnetic monopoles, hypothetical subatomic particles postulated by some physical theories to be left over from the creation of the universe.The purpose of UHECR-D is to ascertain the identity, composition, and extraterrestrial origin of ultra-high-energy cosmic rays, which are much less prevalent and well-understood than lower-energy cosmic rays. PEN-NO will measure the mass and speed of neutrinos produced in particle accelerators and nuclear reactors, both to reduce uncertainty in the known mass of a neutrino and to contribute to the resolution of a recent challenge to Einsteins theory of relativity posed by the observation of neutrinos supposedly traveling slightly faster than light. PEN-NO will also measure the passage of solar and other neutrinos of astronomical origin. Finally, if MaMoD is successful in its search, it will provide experimental proof for Diracs explanation of charge quantization and fix an asymmetry in Maxwells equations of electromagnetism.The government of Storinia projects that it will cost $42 million in total and take 2 years to construct UHECR-D, PEN-NO, and MaMoD. The government also projects that once construction is finished, the annual operating budget for each experiment will be $3.6 million for UHECR-D, $4.3 million for PEN-NO, and $2.7 million for MaMoD. All these figures are in real 2012 dollars (removing the effect of predicted inflation).Q.For each of the following statements, select Yes if the statement is supported by the evidenceprovided. Otherwise, select No.1.With a construction budget of $30 million, the Storinian governmentwill be able to search for a proof of an explanation of charge quantizationand to help resolve a controversy by measuring the speed ofneutrinos produced in nuclear reactors.2.In its Antarctic experiments, the Storinian government will attemptto ascertain the mass and speed of cosmic rays and to confirm thecomposition of magnetic monopoles.3.If the PEN-NO experiment is kept in operation on the surface of theice in Antarctica, its findings will be considered more valid than thoseproduced by the experiment as currently envisioned.a)1-No, 2-No, 3-Nob)1-No, 2-Yes, 3-Noc)1-Yes, 2-No, 3-YesCorrect answer is option 'A'. Can you explain this answer? tests, examples and also practice GMAT tests.
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