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The figure shows a velocity-time graph of a particle moving along a straight line The correct acceleration-time graph of the particle is shown as
The correct answer is:
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The figure shows a velocity-time graph of a particle moving along a straight line If the particle starts from the position x0 = –15 m, then its position at t = 2s will be
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The figure shows a velocity-time graph of a particle moving along a straight line Identify the region in which the rate of change of velocity of the particle is maximum
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The x-t graph of a particle moving along a straight line is shown in figure The speed-time graph of the particle is correctly shown by
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The x-t graph of a particle moving along a straight line is shown in figure The distance-time graph of the particle is correctly shown by
The x-t graph of a particle moving along a straight line is shown in figure The distance-time graph of the particle is correctly shown by
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The x-t graph of a particle moving along a straight line is shown in figure The a-t graph of the particle is correctly shown by
The x-t graph of a particle moving along a straight line is shown in figure The a-t graph of the particle is correctly shown by
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The x-t graph of a particle moving along a straight line is shown in figure The v-t graph of the particle is correctly shown by
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A particle of mass 1 kg is acted upon by a force 'F' which varies as shown in the figure. If initial velocity of the particle is 10 ms–1, the maximum velocity attained by the particle during the period is
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The graph of position x versus time t represents the motion of a particle. If b and c are both positive constants, which of the following expressions best describes the acceleration a of the particle?
The graph of position x versus time t represents the motion of a particle. If b and c are both positive constants, which of the following expressions best describes the acceleration a of the particle?
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The acceleration of a particle which moves along the positive x-axis varies with its position as shown. If the velocity of the particle is 0.8 m/s at x = 0, the velocity of the particle at x = 1.4 is (in m/s)
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A man moves in x-y plane along the path shown. At what point is his average velocity vector in the same direction as his instantaneous velocity vector. The man starts from point P
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Acceleration versus velocity graph of a particle moving in a straight line starting from rest is as shown in figure. The corresponding velocity-time graph would be
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Tangential acceleration of a particle moving in a circle of radius 1 m varies with time t as (initial velocity of particle is zero). Time after which total acceleration of particle makes and angle of 30° with radial acceleration is
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