269353
When the following bodies having same radius starts rolling down on same inclined plane, identify the increasing order of their accelerations
I) hollow cylinder
II) solid cylinder
III)solid sphere
IV) hollow sphere
1 I, IV, III, II
2 IV, I, II, III
3 I, IV, II, III
4 I, IV, III, II
Explanation:
Rotational Motion
269354
When a ring is rolling \(V_{1}, V_{2}, V_{3}\) and \(V_{4}\) are velocities of top most point, lowest point, end point of horizontal diameter, centre of ring respectively, the decreasing order of these velocities is
1 \(V_{2}, V_{1}, V_{4}, V_{3}\)
2 \(V_{2}, V_{1}, V_{3}, V_{4}\)
3 \(V_{1}, V_{2}, V_{3}, V_{4}\)
4 \(V_{1}, V_{3}, V_{4}, V_{2}\)
Explanation:
Rotational Motion
269355
The increasing order of fraction of total kinetic energy associated with translatory motion of the following rolling bodies is
I) circular ring
II) circular plate
III) solid sphere
IV) hollow sphere
1 I, II, IV, III
2 IV, I, II, III
3 I, IV, II, III
4 IV, I, III, II
Explanation:
Rotational Motion
269356
A and\(B\) are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height \(H\). B falls vertically from the same height. Then on reaching the ground.
1 both cannot do work
2 A can do more work than \(B\)
3 \(B\) can do more work than \(A\)
4 both\(A\) and \(B\) will have different linear speeds
Explanation:
Rotational Motion
269357
A solid sphere, a hollow sphere and a ring are released from top of an inclined plane (frictionless) so that they slide down the plane. Then maximum acceleration down the plane is (no rolling):
269353
When the following bodies having same radius starts rolling down on same inclined plane, identify the increasing order of their accelerations
I) hollow cylinder
II) solid cylinder
III)solid sphere
IV) hollow sphere
1 I, IV, III, II
2 IV, I, II, III
3 I, IV, II, III
4 I, IV, III, II
Explanation:
Rotational Motion
269354
When a ring is rolling \(V_{1}, V_{2}, V_{3}\) and \(V_{4}\) are velocities of top most point, lowest point, end point of horizontal diameter, centre of ring respectively, the decreasing order of these velocities is
1 \(V_{2}, V_{1}, V_{4}, V_{3}\)
2 \(V_{2}, V_{1}, V_{3}, V_{4}\)
3 \(V_{1}, V_{2}, V_{3}, V_{4}\)
4 \(V_{1}, V_{3}, V_{4}, V_{2}\)
Explanation:
Rotational Motion
269355
The increasing order of fraction of total kinetic energy associated with translatory motion of the following rolling bodies is
I) circular ring
II) circular plate
III) solid sphere
IV) hollow sphere
1 I, II, IV, III
2 IV, I, II, III
3 I, IV, II, III
4 IV, I, III, II
Explanation:
Rotational Motion
269356
A and\(B\) are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height \(H\). B falls vertically from the same height. Then on reaching the ground.
1 both cannot do work
2 A can do more work than \(B\)
3 \(B\) can do more work than \(A\)
4 both\(A\) and \(B\) will have different linear speeds
Explanation:
Rotational Motion
269357
A solid sphere, a hollow sphere and a ring are released from top of an inclined plane (frictionless) so that they slide down the plane. Then maximum acceleration down the plane is (no rolling):
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Rotational Motion
269353
When the following bodies having same radius starts rolling down on same inclined plane, identify the increasing order of their accelerations
I) hollow cylinder
II) solid cylinder
III)solid sphere
IV) hollow sphere
1 I, IV, III, II
2 IV, I, II, III
3 I, IV, II, III
4 I, IV, III, II
Explanation:
Rotational Motion
269354
When a ring is rolling \(V_{1}, V_{2}, V_{3}\) and \(V_{4}\) are velocities of top most point, lowest point, end point of horizontal diameter, centre of ring respectively, the decreasing order of these velocities is
1 \(V_{2}, V_{1}, V_{4}, V_{3}\)
2 \(V_{2}, V_{1}, V_{3}, V_{4}\)
3 \(V_{1}, V_{2}, V_{3}, V_{4}\)
4 \(V_{1}, V_{3}, V_{4}, V_{2}\)
Explanation:
Rotational Motion
269355
The increasing order of fraction of total kinetic energy associated with translatory motion of the following rolling bodies is
I) circular ring
II) circular plate
III) solid sphere
IV) hollow sphere
1 I, II, IV, III
2 IV, I, II, III
3 I, IV, II, III
4 IV, I, III, II
Explanation:
Rotational Motion
269356
A and\(B\) are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height \(H\). B falls vertically from the same height. Then on reaching the ground.
1 both cannot do work
2 A can do more work than \(B\)
3 \(B\) can do more work than \(A\)
4 both\(A\) and \(B\) will have different linear speeds
Explanation:
Rotational Motion
269357
A solid sphere, a hollow sphere and a ring are released from top of an inclined plane (frictionless) so that they slide down the plane. Then maximum acceleration down the plane is (no rolling):
269353
When the following bodies having same radius starts rolling down on same inclined plane, identify the increasing order of their accelerations
I) hollow cylinder
II) solid cylinder
III)solid sphere
IV) hollow sphere
1 I, IV, III, II
2 IV, I, II, III
3 I, IV, II, III
4 I, IV, III, II
Explanation:
Rotational Motion
269354
When a ring is rolling \(V_{1}, V_{2}, V_{3}\) and \(V_{4}\) are velocities of top most point, lowest point, end point of horizontal diameter, centre of ring respectively, the decreasing order of these velocities is
1 \(V_{2}, V_{1}, V_{4}, V_{3}\)
2 \(V_{2}, V_{1}, V_{3}, V_{4}\)
3 \(V_{1}, V_{2}, V_{3}, V_{4}\)
4 \(V_{1}, V_{3}, V_{4}, V_{2}\)
Explanation:
Rotational Motion
269355
The increasing order of fraction of total kinetic energy associated with translatory motion of the following rolling bodies is
I) circular ring
II) circular plate
III) solid sphere
IV) hollow sphere
1 I, II, IV, III
2 IV, I, II, III
3 I, IV, II, III
4 IV, I, III, II
Explanation:
Rotational Motion
269356
A and\(B\) are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height \(H\). B falls vertically from the same height. Then on reaching the ground.
1 both cannot do work
2 A can do more work than \(B\)
3 \(B\) can do more work than \(A\)
4 both\(A\) and \(B\) will have different linear speeds
Explanation:
Rotational Motion
269357
A solid sphere, a hollow sphere and a ring are released from top of an inclined plane (frictionless) so that they slide down the plane. Then maximum acceleration down the plane is (no rolling):
269353
When the following bodies having same radius starts rolling down on same inclined plane, identify the increasing order of their accelerations
I) hollow cylinder
II) solid cylinder
III)solid sphere
IV) hollow sphere
1 I, IV, III, II
2 IV, I, II, III
3 I, IV, II, III
4 I, IV, III, II
Explanation:
Rotational Motion
269354
When a ring is rolling \(V_{1}, V_{2}, V_{3}\) and \(V_{4}\) are velocities of top most point, lowest point, end point of horizontal diameter, centre of ring respectively, the decreasing order of these velocities is
1 \(V_{2}, V_{1}, V_{4}, V_{3}\)
2 \(V_{2}, V_{1}, V_{3}, V_{4}\)
3 \(V_{1}, V_{2}, V_{3}, V_{4}\)
4 \(V_{1}, V_{3}, V_{4}, V_{2}\)
Explanation:
Rotational Motion
269355
The increasing order of fraction of total kinetic energy associated with translatory motion of the following rolling bodies is
I) circular ring
II) circular plate
III) solid sphere
IV) hollow sphere
1 I, II, IV, III
2 IV, I, II, III
3 I, IV, II, III
4 IV, I, III, II
Explanation:
Rotational Motion
269356
A and\(B\) are two solid spheres of equal masses. A rolls down an inclined plane without slipping from a height \(H\). B falls vertically from the same height. Then on reaching the ground.
1 both cannot do work
2 A can do more work than \(B\)
3 \(B\) can do more work than \(A\)
4 both\(A\) and \(B\) will have different linear speeds
Explanation:
Rotational Motion
269357
A solid sphere, a hollow sphere and a ring are released from top of an inclined plane (frictionless) so that they slide down the plane. Then maximum acceleration down the plane is (no rolling):