Chapter 6 – Work, Energy and Power

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The displacement (x) and time (t) for a particle are related to each other as t = root x+3. What is the work done in the first six seconds of its motion?
27
Oct
The displacement (x) and time (t) for a particle are related to each other as t = root x+3. What is the work done in the first six seconds of its motion? The displacement (x) and time (t) for a particle are related to each other as t = root x+3. What is the work [...]
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Tags: The displacement (x) and time (t) for a particle are related to each other as t = root x+3. What is the work done in the first six seconds of its motion? ,
Two bodies of masses 4 kg and 5 kg are moving with equal momentum. Then the ratio of their respective kinetic energies is
27
Oct
Two bodies of masses 4 kg and 5 kg are moving with equal momentum. Then the ratio of their respective kinetic energies is Two bodies of masses 4 kg and 5 kg are moving with equal momentum. Then the ratio of their respective kinetic energies is October 27, 2020 Category: Chapter 6 - Work, Energy [...]
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Tags: Two bodies of masses 4 kg and 5 kg are moving with equal momentum. Then the ratio of their respective kinetic energies is ,
In the non-relativistic regime, if the momentum, is increased by 100%, the percentage increase in kinetic energy is
27
Oct
In the non-relativistic regime, if the momentum, is increased by 100%, the percentage increase in kinetic energy is if the momentum In the non-relativistic regime is increased by 100% the percentage increase in kinetic energy is October 27, 2020 Category: Chapter 6 - Work, Energy and Power , MTG NEET Physics , Part 1 ,
Posted in: Chapter 6 - Work, Energy and Power , MTG NEET Physics , Part 1 ,
Tags: if the momentum , In the non-relativistic regime , is increased by 100% , the percentage increase in kinetic energy is ,
A bomb of mass 9kg explodes into two pieces of masses 3kg and 6kg. The velocity of mass 3kg is 16ms^−1. The kinetic energy of mass 6kg in joule is
27
Oct
A bomb of mass 9kg explodes into two pieces of masses 3kg and 6kg. The velocity of mass 3kg is 16ms^−1. The kinetic energy of mass 6kg in joule is A bomb of mass 9kg explodes into two pieces of masses 3kg and 6kg. The velocity of mass 3kg is 16ms^−1. The kinetic energy of [...]
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Tags: A bomb of mass 9kg explodes into two pieces of masses 3kg and 6kg. The velocity of mass 3kg is 16ms^−1. The kinetic energy of mass 6kg in joule is ,
A particle of mass 4 m which is at rest explodes into three fragments. Two of the fragments each of mass m move with a speed v each in mutually perpendicular directions. The total energy released in the process is
27
Oct
A particle of mass 4 m which is at rest explodes into three fragments. Two of the fragments each of mass m move with a speed v each in mutually perpendicular directions. The total energy released in the process is Two bodies of masses 'm' and '4m' are moving with equal kinetic energy. The ratio [...]
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Tags: Two bodies of masses 'm' and '4m' are moving with equal kinetic energy. The ratio of their linear momenta is ,
Two bodies A and B have masses 20 kg and 5 kg respectively. Each one is acted upon by a force of 4 kg wt. If they acquire the same kinetic energy in times tA and tB, then the ratio tA/tB is
27
Oct
Two bodies A and B have masses 20 kg and 5 kg respectively. Each one is acted upon by a force of 4 kg wt. If they acquire the same kinetic energy in times tA and tB, then the ratio tA/tB is then the ratio TA​/TB​ is Two bodies A and B have masses 20 [...]
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Tags: then the ratio TA​/TB​ is , Two bodies A and B have masses 20 kg and 5 kg respectively. Each one is acted upon by a force of 4 kg wt. If they acquire the same kinetic energy in times tA and tB ,
A body of mass 1 kg accelerates uniformly from rest to a velocity of 1 m/s in 15sec. The kinetic energy of the body will be 2/9 J when the is equal to ?
27
Oct
A body of mass 1 kg accelerates uniformly from rest to a velocity of 1 m/s in 15sec. The kinetic energy of the body will be 2/9 J when the is equal to ? A body of mass 1 kg accelerates uniformly from rest to a velocity of 1 m/s in 15sec. The kinetic energy [...]
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Tags: A body of mass 1 kg accelerates uniformly from rest to a velocity of 1 m/s in 15sec. The kinetic energy of the body will be 2/9 J when the is equal to ? ,
An engine pump is used to pump a liquid of density ρ continuously through a pipe of area of cross-section A. If the speed of flow of the liquid in the pipe is V, then the rate at which kinetic energy is being imparted to the liquid is:
27
Oct
An engine pump is used to pump a liquid of density ρ continuously through a pipe of area of cross-section A. If the speed of flow of the liquid in the pipe is V, then the rate at which kinetic energy is being imparted to the liquid is: An engine pump is used to pump [...]
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Tags: An engine pump is used to pump a liquid of density ρ continuously through a pipe of area of cross-section A. If the speed of flow of the liquid in the pipe is V , then the rate at which kinetic energy is being imparted to the liquid is: ,
A running man has half the KE that a body of half his mass. The man speeds up by 1ms^−1 and then has the kinetic energy as that of the boy. What were the original speeds of the man and the boy?
27
Oct
A running man has half the KE that a body of half his mass. The man speeds up by 1ms^−1 and then has the kinetic energy as that of the boy. What were the original speeds of the man and the boy? A running man has half the KE that a body of half his [...]
Posted in: Chapter 6 - Work, Energy and Power , MTG NEET Physics , Part 1 ,
Tags: A running man has half the KE that a body of half his mass. The man speeds up by 1ms^−1 and then has the kinetic energy as that of the boy. What were the original speeds of the man and the boy? ,
Two bodies of masses ‘m’ and ‘4m’ are moving with equal kinetic energy. The ratio of their linear momenta is
27
Oct
Two bodies of masses ‘m’ and ‘4m’ are moving with equal kinetic energy. The ratio of their linear momenta is Two bodies of masses 'm' and '4m' are moving with equal kinetic energy. The ratio of their linear momenta is October 27, 2020 Category: Chapter 6 - Work, Energy and Power , MTG NEET Physics [...]
Posted in: Chapter 6 - Work, Energy and Power , MTG NEET Physics , Part 1 ,
Tags: Two bodies of masses 'm' and '4m' are moving with equal kinetic energy. The ratio of their linear momenta is ,