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A man is sitting in a moving train, then

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Important Questions on Work, Energy and Power

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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A particle moves in one dimension from rest under the influence of a force that varies with the distance traveled by the particle as shown in the figure. The kinetic energy of the particle after it has traveled 3 m is:
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
Some of the following equations are kinematical equations, where the symbols have their usual meaning. The work-energy theorem is represented by
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A bullet of mass  20 g has an initial speed of  1 m s-1, just before it starts penetrating a mud wall of thickness  20 cm. If the wall offers a mean resistance of  2.5×10-2 N, the speed of the bullet after emerging from the other side of the wall is close to:
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
Two bodies A and B having masses in the ratio of 3:1 possesses the same kinetic energy. The ratio of linear momentum of B to A is
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A running man has half the kinetic energy of that of a boy of half of his mass. The man speeds up by 1 m s-1 to have the same kinetic energy as that of the boy. The original speed of the man will be
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A running boy has the same kinetic energy as that of a man of twice his mass. If the speed of the boy is 14.14ms-1, the speed of the man is
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
The velocity-time graph of a particle of mass 10 kg is shown in the figure. The net work done on the particle in the first two seconds of the motion is

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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A small ball of mass m is thrown upward with velocity u from the ground. The ball experiences a resistive force mkv2 where v is its speed. The maximum height attained by the ball is :
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A body of mass m starts moving from rest along x-axis so that its velocity varies as v=as where a is a constant and s is the distance covered by the body. The total work done by all the forces acting on the body in the first t second after the start of the motion is
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A body of mass m=102 kg is moving in a medium and experiences a frictional force F=k v 2 . Its initial speed is v0=10 m s1. After 10 s its kinetic energy is 18mv02, then value of k will be:-
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
The Work - Energy theorem
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A force acts on a 2 kg object so that its position is given as a function of time as x=3t2+5. What is the work done by this force in first 5 seconds?
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A cricket ball of mass 0.15 kg is thrown vertically up by a bowling machine so that it rises to a maximum height of 20 m after leaving the machine. If the part pushing the ball applies a constant force F on the ball and moves horizontally a distance of 0.2 m while launching the ball, the value of F(in N) is g=10 m s-2
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A person of mass M is sitting on a swing of length L and swinging with an angular amplitude θ0. If the person stands up when the swing passes through its lowest point, the work done by him, assuming that his centre of mass moves by a distance l lL, is close to:
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A particle of charge q and mass m is subjected to an electric field E=E01ax2 in the x-direction, where a and E0 are constants. Initially the particle was at rest at x=0. Other than the initial position the kinetic energy of the particle becomes zero when the distance of the particle from the origin is :
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A bullet of mass 5 g, travelling with a speed of 210 m s-1 strikes a fixed wooden target. One half of its kinetic energy is converted into heat in the wood. The rise of temperature of the bullet if the specific heat of its material is  0.030 g °C-1 1 calorie=4.2×107 ergs close to :
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy

A small block starts slipping down from a point B on an inclined plane AB, which is making an angle θ with the horizontal section BC is smooth and the remaining section CA is rough with a coefficient of friction μ. It is found that the block comes to rest as it reaches the bottom (point A) of the inclined plane. If BC=2AC, the coefficient of friction is given by μ=k tanθ. The value of k is .......

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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A body of mass m=1 kg is moving in a medium and experiences a frictional force F=-kv, where v is the speed of the body. The initial speed is v0=10 m s-1 and after 10 s, its energy becomes half of the initial energy. Then, the value of k is
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A block of mass 10 kg, moving in x direction with a constant speed of 10 s-1 , is subjected to a retarding force F=(0.1)xJ m-1 during its travel from x=20 m to 30 m . Its final kinetic energy will be:
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Physics>Mechanics>Work, Energy and Power>Kinetic Energy
A particle which is experiencing a force, given by F=3i^-12j^, undergoes a displacement of d=4i^. If the particle had a kinetic energy of 3 J at the beginning of the displacement, what is its kinetic energy at the end of the displacement?