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An athlete in the Olympic games cover a distance of 100 metre in 10 seconds. If kinetic energy can be estimated in the range -
(AIIEEE - 2008)

A. 2 * 10^5 J -- 3 * 10^5 J

B. 20000 J -- 50000 J

C. 2000 J -- 5000 J

D. 200 J -- 500 J?
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An athlete in the Olympic games cover a distance of 100 metre in 10 se...
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One of the kinds of human enhancement that has received extensive philosophical attention in recent years is the use of biomedical interventions to improve the physical performance of athletes in the context of sports.One reason athletic performance enhancement garners so much attention is because of its currency, given the epidemic of "doping" scandals in contemporary sport.At first impression, the ethical problem with performance enhancement in sport would seem to be simply a problem of cheating. If the rules of sport forbid the use of performance enhancements, then their illicit use confers an advantage to users against other athletes. That advantage, in turn, can create pressure for more athletes to cheat in the same way, undermining the basis for the competitions at stake and exacerbating the gap between those who can afford enhancements and those who cannot.The rules of a game can be changed. In sports, novel forms of performance enhancing equipment and training are routinely introduced as athletic technology and expertise evolve. Where issues of athletes equitable access arise, they can be dealt with in one of two ways.Sometimes it is possible to ensure fair distribution, as for example, when the International Olympic Committee negotiated an agreement with the manufacturer of the new "FastSkin" swimming suit to provide suits to all the teams at the Sydney Olympics. In other cases, inequalities may simply come to be accepted as unfortunate but not unfair. This is, for example, how many people would view a story about an equatorial country that could not afford year-round artificial snow for its ski team, and so could not compete evenly with the ski teams of northern countries. If enhancement interventions can either be distributed fairly or the inequities they create can be written into the rules of the social game in question as part of the given advantages of the more fortunate, then individual users no longer face a fairness problem.For those who can afford it, for example, what would be ethically suspect about mounting a mirror image of the "Special Olympics" for athletes with disabilities: a "Super Olympics", featuring athletes universally equipped with the latest modifications and enhancements? For answers to that challenge, the critics of biomedical enhancement have to dig beyond concerns about the fair governance of games to a deeper and broader sense of "cheating", in terms of the corrosive effects of enhancement on the integrity of admirable human practices.Q. "Super Olympics", as per the passage

One of the kinds of human enhancement that has received extensive philosophical attention in recent years is the use of biomedical interventions to improve the physical performance of athletes in the context of sports.One reason athletic performance enhancement garners so much attention is because of its currency, given the epidemic of "doping" scandals in contemporary sport.At first impression, the ethical problem with performance enhancement in sport would seem to be simply a problem of cheating. If the rules of sport forbid the use of performance enhancements, then their illicit use confers an advantage to users against other athletes. That advantage, in turn, can create pressure for more athletes to cheat in the same way, undermining the basis for the competitions at stake and exacerbating the gap between those who can afford enhancements and those who cannot.The rules of a game can be changed. In sports, novel forms of performance enhancing equipment and training are routinely introduced as athletic technology and expertise evolve. Where issues of athletes equitable access arise, they can be dealt with in one of two ways.Sometimes it is possible to ensure fair distribution, as for example, when the International Olympic Committee negotiated an agreement with the manufacturer of the new "FastSkin" swimming suit to provide suits to all the teams at the Sydney Olympics. In other cases, inequalities may simply come to be accepted as unfortunate but not unfair. This is, for example, how many people would view a story about an equatorial country that could not afford year-round artificial snow for its ski team, and so could not compete evenly with the ski teams of northern countries. If enhancement interventions can either be distributed fairly or the inequities they create can be written into the rules of the social game in question as part of the given advantages of the more fortunate, then individual users no longer face a fairness problem.For those who can afford it, for example, what would be ethically suspect about mounting a mirror image of the "Special Olympics" for athletes with disabilities: a "Super Olympics", featuring athletes universally equipped with the latest modifications and enhancements? For answers to that challenge, the critics of biomedical enhancement have to dig beyond concerns about the fair governance of games to a deeper and broader sense of "cheating", in terms of the corrosive effects of enhancement on the integrity of admirable human practices.Q. According to the passage, one of the reasons as to why athletic performance enhancements get so much attention is.

One of the kinds of human enhancement that has received extensive philosophical attention in recent years is the use of biomedical interventions to improve the physical performance of athletes in the context of sports.One reason athletic performance enhancement garners so much attention is because of its currency, given the epidemic of "doping" scandals in contemporary sport.At first impression, the ethical problem with performance enhancement in sport would seem to be simply a problem of cheating. If the rules of sport forbid the use of performance enhancements, then their illicit use confers an advantage to users against other athletes. That advantage, in turn, can create pressure for more athletes to cheat in the same way, undermining the basis for the competitions at stake and exacerbating the gap between those who can afford enhancements and those who cannot.The rules of a game can be changed. In sports, novel forms of performance enhancing equipment and training are routinely introduced as athletic technology and expertise evolve. Where issues of athletes equitable access arise, they can be dealt with in one of two ways.Sometimes it is possible to ensure fair distribution, as for example, when the International Olympic Committee negotiated an agreement with the manufacturer of the new "FastSkin" swimming suit to provide suits to all the teams at the Sydney Olympics. In other cases, inequalities may simply come to be accepted as unfortunate but not unfair. This is, for example, how many people would view a story about an equatorial country that could not afford year-round artificial snow for its ski team, and so could not compete evenly with the ski teams of northern countries. If enhancement interventions can either be distributed fairly or the inequities they create can be written into the rules of the social game in question as part of the given advantages of the more fortunate, then individual users no longer face a fairness problem.For those who can afford it, for example, what would be ethically suspect about mounting a mirror image of the "Special Olympics" for athletes with disabilities: a "Super Olympics", featuring athletes universally equipped with the latest modifications and enhancements? For answers to that challenge, the critics of biomedical enhancement have to dig beyond concerns about the fair governance of games to a deeper and broader sense of "cheating", in terms of the corrosive effects of enhancement on the integrity of admirable human practices.Q. What does the meaning of the word "exacerbate" as used in the passage mean?

An athlete in the Olympic games cover a distance of 100 metre in 10 seconds. If kinetic energy can be estimated in the range -(AIIEEE - 2008)A. 2 * 10^5 J -- 3 * 10^5 JB. 20000 J -- 50000 J C. 2000 J -- 5000 JD. 200 J -- 500 J?
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An athlete in the Olympic games cover a distance of 100 metre in 10 seconds. If kinetic energy can be estimated in the range -(AIIEEE - 2008)A. 2 * 10^5 J -- 3 * 10^5 JB. 20000 J -- 50000 J C. 2000 J -- 5000 JD. 200 J -- 500 J? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about An athlete in the Olympic games cover a distance of 100 metre in 10 seconds. If kinetic energy can be estimated in the range -(AIIEEE - 2008)A. 2 * 10^5 J -- 3 * 10^5 JB. 20000 J -- 50000 J C. 2000 J -- 5000 JD. 200 J -- 500 J? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for An athlete in the Olympic games cover a distance of 100 metre in 10 seconds. If kinetic energy can be estimated in the range -(AIIEEE - 2008)A. 2 * 10^5 J -- 3 * 10^5 JB. 20000 J -- 50000 J C. 2000 J -- 5000 JD. 200 J -- 500 J?.
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