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Work, Energy and Power

268626 Six steel balls of identical size are lined up along a straight frictionless groove. Two similar balls moving with speed \(v\) along the groove collide with this row on the extreme left end. Then

1 one ball from the right end will move on with speed v

2 two balls from the extreme right end will move on with speed \(v\) and the remaining balls will be at rest

3 all the balls will start moving to the right with speed \(v / 8\)

4 all the six balls originally at rest will move on with speed v/6 and the incident balls will come to rest

Work, Energy and Power

268627 A lighter body moving with a velocity \(\mathbf{v}\) collides with a heavier body at rest. Then

1 the lighter body rebounced with twice the velocity of bigger body

2 the lighter body retraces its path with the same velocity in magnitude

3 the heavier body does not move practically

4 both (2) and (3)

Work, Energy and Power

268628 A heavier body moving with certain velocity collides head on elastically with a lighter body at rest, then

1 smaller body continues to be in the same state of rest

2 smaller body starts to move in the same direction with same velocity as that of bigger body

3 the smaller body start to move with twice the velocity of the bigger body in the same direction

4 the bigger body comes to rest

Work, Energy and Power

268629 A perfectly elastic ball \(P_{1}\) of mass ' \(m\) ' moving with velocity \(\mathbf{v}\) collides elastically with three exactly similar balls \(P_{2}, P_{3}, P_{4}\) lying on a smooth table. Velocity of the four balls after collision are

1 \(0,0,0,0\)

2 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, \mathrm{v}\)

3 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, 0\)

4 \(0,0,0, \mathrm{v}\)

Work, Energy and Power

268626 Six steel balls of identical size are lined up along a straight frictionless groove. Two similar balls moving with speed \(v\) along the groove collide with this row on the extreme left end. Then

1 one ball from the right end will move on with speed v

2 two balls from the extreme right end will move on with speed \(v\) and the remaining balls will be at rest

3 all the balls will start moving to the right with speed \(v / 8\)

4 all the six balls originally at rest will move on with speed v/6 and the incident balls will come to rest

Work, Energy and Power

268627 A lighter body moving with a velocity \(\mathbf{v}\) collides with a heavier body at rest. Then

1 the lighter body rebounced with twice the velocity of bigger body

2 the lighter body retraces its path with the same velocity in magnitude

3 the heavier body does not move practically

4 both (2) and (3)

Work, Energy and Power

268628 A heavier body moving with certain velocity collides head on elastically with a lighter body at rest, then

1 smaller body continues to be in the same state of rest

2 smaller body starts to move in the same direction with same velocity as that of bigger body

3 the smaller body start to move with twice the velocity of the bigger body in the same direction

4 the bigger body comes to rest

Work, Energy and Power

268629 A perfectly elastic ball \(P_{1}\) of mass ' \(m\) ' moving with velocity \(\mathbf{v}\) collides elastically with three exactly similar balls \(P_{2}, P_{3}, P_{4}\) lying on a smooth table. Velocity of the four balls after collision are

1 \(0,0,0,0\)

2 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, \mathrm{v}\)

3 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, 0\)

4 \(0,0,0, \mathrm{v}\)

Work, Energy and Power

268626 Six steel balls of identical size are lined up along a straight frictionless groove. Two similar balls moving with speed \(v\) along the groove collide with this row on the extreme left end. Then

1 one ball from the right end will move on with speed v

2 two balls from the extreme right end will move on with speed \(v\) and the remaining balls will be at rest

3 all the balls will start moving to the right with speed \(v / 8\)

4 all the six balls originally at rest will move on with speed v/6 and the incident balls will come to rest

Work, Energy and Power

268627 A lighter body moving with a velocity \(\mathbf{v}\) collides with a heavier body at rest. Then

1 the lighter body rebounced with twice the velocity of bigger body

2 the lighter body retraces its path with the same velocity in magnitude

3 the heavier body does not move practically

4 both (2) and (3)

Work, Energy and Power

268628 A heavier body moving with certain velocity collides head on elastically with a lighter body at rest, then

1 smaller body continues to be in the same state of rest

2 smaller body starts to move in the same direction with same velocity as that of bigger body

3 the smaller body start to move with twice the velocity of the bigger body in the same direction

4 the bigger body comes to rest

Work, Energy and Power

268629 A perfectly elastic ball \(P_{1}\) of mass ' \(m\) ' moving with velocity \(\mathbf{v}\) collides elastically with three exactly similar balls \(P_{2}, P_{3}, P_{4}\) lying on a smooth table. Velocity of the four balls after collision are

1 \(0,0,0,0\)

2 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, \mathrm{v}\)

3 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, 0\)

4 \(0,0,0, \mathrm{v}\)

Work, Energy and Power

268626 Six steel balls of identical size are lined up along a straight frictionless groove. Two similar balls moving with speed \(v\) along the groove collide with this row on the extreme left end. Then

1 one ball from the right end will move on with speed v

2 two balls from the extreme right end will move on with speed \(v\) and the remaining balls will be at rest

3 all the balls will start moving to the right with speed \(v / 8\)

4 all the six balls originally at rest will move on with speed v/6 and the incident balls will come to rest

Work, Energy and Power

268627 A lighter body moving with a velocity \(\mathbf{v}\) collides with a heavier body at rest. Then

1 the lighter body rebounced with twice the velocity of bigger body

2 the lighter body retraces its path with the same velocity in magnitude

3 the heavier body does not move practically

4 both (2) and (3)

Work, Energy and Power

268628 A heavier body moving with certain velocity collides head on elastically with a lighter body at rest, then

1 smaller body continues to be in the same state of rest

2 smaller body starts to move in the same direction with same velocity as that of bigger body

3 the smaller body start to move with twice the velocity of the bigger body in the same direction

4 the bigger body comes to rest

Work, Energy and Power

268629 A perfectly elastic ball \(P_{1}\) of mass ' \(m\) ' moving with velocity \(\mathbf{v}\) collides elastically with three exactly similar balls \(P_{2}, P_{3}, P_{4}\) lying on a smooth table. Velocity of the four balls after collision are

1 \(0,0,0,0\)

2 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, \mathrm{v}\)

3 \(\mathrm{v}, \mathrm{v}, \mathrm{v}, 0\)

4 \(0,0,0, \mathrm{v}\)

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