Physics
Mechanics
Easy
Question
A particle P collides elastically at M with a speed v. The change in angular momentum of the particle about the point N during collision is :
- Zero
The correct answer is: Zero
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A disc of mass m is connected with an ideal spring of stiffness k. If it is released from rest., it rolls without sliding on an inclined plane. The maximum elongation of the spring is :
A disc of mass m is connected with an ideal spring of stiffness k. If it is released from rest., it rolls without sliding on an inclined plane. The maximum elongation of the spring is :
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A uniform cylinder of mass m is kept on an accelerating wedge. If the wedge moves with an acceleration , the minimum coefficient of friction between the cylinder and wedge to avoid relative sliding between them is
A uniform cylinder of mass m is kept on an accelerating wedge. If the wedge moves with an acceleration , the minimum coefficient of friction between the cylinder and wedge to avoid relative sliding between them is
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A rod touches a disc kept on a smooth horizontal plane. If the rod moves with an acceleration a, the disc rolls on the rod without sliding. Then, the acceleration of the disc w.r.t the rod is
A rod touches a disc kept on a smooth horizontal plane. If the rod moves with an acceleration a, the disc rolls on the rod without sliding. Then, the acceleration of the disc w.r.t the rod is
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A uniform box is kept on a rough inclined plane. It begins to topple when is equal to:
A uniform box is kept on a rough inclined plane. It begins to topple when is equal to:
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A rigid massless beam is balanced by a particle of mass 4m in left hand side and a pulley particle system in right hand side. The value of x/y is:
A rigid massless beam is balanced by a particle of mass 4m in left hand side and a pulley particle system in right hand side. The value of x/y is:
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Column I |
Column II |
i. |
a. possible for ring or disc |
ii. |
b. possible for hollow sphere or solid sphere |
iii. |
c. possible for all of the bodies mentioned |
iv. |
d. not possible for any of the body mentioned |
Column I |
Column II |
i. |
a. possible for ring or disc |
ii. |
b. possible for hollow sphere or solid sphere |
iii. |
c. possible for all of the bodies mentioned |
iv. |
d. not possible for any of the body mentioned |
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Physics
Two particles A and B of mass m each, are joined by a rigid massless rod of length l. A particle P of mass m, moving with speed u normal to AB, strikes A and stick to it. The centre of mass of the 'A + B + P' system after collision is C. If u = 4m/s, m = 3 kg, l = 3 m, then (All quantities in column are in SI units)
Two particles A and B of mass m each, are joined by a rigid massless rod of length l. A particle P of mass m, moving with speed u normal to AB, strikes A and stick to it. The centre of mass of the 'A + B + P' system after collision is C. If u = 4m/s, m = 3 kg, l = 3 m, then (All quantities in column are in SI units)
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Column I |
Column II |
i. A single force through centre of mass |
a. Rotational motion |
ii.Equal and opposite forces separated by non-zero distance |
b. Translation motion |
iii. Equal and opposite forces acting at the same point |
c. No motion |
iv. A single force not through centre of mass |
d. Centre of mass performs translatory motion |
Column I |
Column II |
i. A single force through centre of mass |
a. Rotational motion |
ii.Equal and opposite forces separated by non-zero distance |
b. Translation motion |
iii. Equal and opposite forces acting at the same point |
c. No motion |
iv. A single force not through centre of mass |
d. Centre of mass performs translatory motion |
PhysicsMechanics
Physics
Column – I |
Column – II |
i. is equal to |
a. |
ii. is equal to |
b. |
iii. is equal to |
c. |
iv. is equal to |
d. none of these |
Column – I |
Column – II |
i. is equal to |
a. |
ii. is equal to |
b. |
iii. is equal to |
c. |
iv. is equal to |
d. none of these |
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PhysicsMechanics
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The horizontal and vertical components of the force exerted on the beam at the wall
The horizontal and vertical components of the force exerted on the beam at the wall
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