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Direction: Read the following Passage and Answer the following Question.
In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; it's a strategic chess game involving national pride and potential economic supremacy.
The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, China's ambitious national strategy has led to significant advancements, including the launch of the world's first quantum satellite.
At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.
Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.
As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.
As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.
Q. Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?
- a)Quantum computers are more environmentally friendly.
- b)Quantum computers can perform all tasks faster than classical computers.
- c)Quantum computers require specific environmental conditions to operate effectively.
- d)Quantum computers are more practical for everyday use.
- e)Quantum computers are less expensive to produce.
Correct answer is option 'C'. Can you explain this answer?
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Most Upvoted Answer
Direction:Read the following Passage and Answer the following Question...
Understanding Quantum Computers
Quantum computers represent a significant shift in computing technology, but they come with unique requirements that differentiate them from classical computers.
Specific Environmental Conditions
- Quantum computers are highly sensitive to their surroundings.
- They often necessitate extreme conditions, such as near-absolute zero temperatures, to function effectively.
- This sensitivity arises from the quantum bits (qubits) that make up these computers, which can be easily disrupted by external factors.
Implications of Environmental Sensitivity
- The need for specific conditions limits the practicality of quantum computers in everyday applications, unlike classical computers, which can operate in a variety of environments.
- This requirement raises concerns about the scalability and accessibility of quantum technology for broader use.
Why Other Options Are Incorrect
- Option A: Quantum computers are not necessarily more environmentally friendly; their operational conditions are extreme.
- Option B: They do not perform all tasks faster; they excel in specific complex computations.
- Option D: Current quantum computers are not practical for everyday use due to their environmental requirements and infancy in technology.
- Option E: The production costs of quantum computers are generally higher than those for classical computers.
Conclusion
Thus, option 'C' accurately reflects the necessity for quantum computers to operate under specific environmental conditions, distinguishing them from their classical counterparts. This understanding is crucial for grasping the challenges and potential of quantum computing technology.
Quantum computers represent a significant shift in computing technology, but they come with unique requirements that differentiate them from classical computers.
Specific Environmental Conditions
- Quantum computers are highly sensitive to their surroundings.
- They often necessitate extreme conditions, such as near-absolute zero temperatures, to function effectively.
- This sensitivity arises from the quantum bits (qubits) that make up these computers, which can be easily disrupted by external factors.
Implications of Environmental Sensitivity
- The need for specific conditions limits the practicality of quantum computers in everyday applications, unlike classical computers, which can operate in a variety of environments.
- This requirement raises concerns about the scalability and accessibility of quantum technology for broader use.
Why Other Options Are Incorrect
- Option A: Quantum computers are not necessarily more environmentally friendly; their operational conditions are extreme.
- Option B: They do not perform all tasks faster; they excel in specific complex computations.
- Option D: Current quantum computers are not practical for everyday use due to their environmental requirements and infancy in technology.
- Option E: The production costs of quantum computers are generally higher than those for classical computers.
Conclusion
Thus, option 'C' accurately reflects the necessity for quantum computers to operate under specific environmental conditions, distinguishing them from their classical counterparts. This understanding is crucial for grasping the challenges and potential of quantum computing technology.
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Community Answer
Direction:Read the following Passage and Answer the following Question...
This is an INFERENCE question. The passage mentions that quantum computers are "incredibly sensitive to environmental factors" and require "near-absolute zero temperatures" to function. This information allows us to infer that quantum computers require specific environmental conditions to operate effectively (Choice C). The other choices are either not supported by the passage or are incorrect based on the information provided.
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Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer?
Question Description
Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. 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 Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? covers all topics & solutions for GMAT 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer?.
Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. 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 Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? covers all topics & solutions for GMAT 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer?.
Solutions for Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? in English & in Hindi are available as part of our courses for GMAT.
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Here you can find the meaning of Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of
Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer?, a detailed solution for Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? has been provided alongside types of Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Direction:Read the following Passage and Answer the following Question.In the world of modern technology, the race to develop quantum computers has become the new gold rush. While classical computers have driven the digital age, quantum computers hold the promise of solving problems beyond the reach of classical systems. This race, however, is not just about technological superiority; its a strategic chess game involving national pride and potential economic supremacy.The United States and China have emerged as the front-runners in this race. The U.S., with its long history of technological innovation, has poured billions into research and development. Silicon Valley giants like Google and IBM are in a fierce competition to build the first fully functional quantum computer. On the other hand, Chinas ambitious national strategy has led to significant advancements, including the launch of the worlds first quantum satellite.At the heart of this competition lies the principle of quantum supremacy - the point at which a quantum computer can perform a calculation that is impossible for a classical computer. Achieving this would not only be a scientific breakthrough but also have profound implications for cybersecurity, as quantum computers can potentially break many of the encryption methods currently in use.Despite the excitement, there are skeptics who question the practicality of quantum computing. They argue that these computers are incredibly sensitive to environmental factors and require extreme conditions to function, such as near-absolute zero temperatures. Moreover, the technology is still in its infancy, and real-world applications are years, if not decades, away.As the race continues, one thing is certain: the arrival of quantum computing will mark a new era in the technological landscape, reshaping industries and possibly redefining global power dynamics.Q.Based on the passage, which of the following can be inferred about quantum computers compared to classical computers?a)Quantum computers are more environmentally friendly.b)Quantum computers can perform all tasks faster than classical computers.c)Quantum computers require specific environmental conditions to operate effectively.d)Quantum computers are more practical for everyday use.e)Quantum computers are less expensive to produce.Correct answer is option 'C'. Can you explain this answer? tests, examples and also practice GMAT tests.
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