Physics-
General
Easy
Question
What is the relation between velocities of points A and B in the given figure.
The correct answer is:
Related Questions to study
physics-
What is the relation between speeds of points A and B in the given figure.
What is the relation between speeds of points A and B in the given figure.
physics-General
physics-
What is the relation between speeds of points A and B in the given figure.
What is the relation between speeds of points A and B in the given figure.
physics-General
physics-
What is the relation between speeds of points A and B in the given figure.
What is the relation between speeds of points A and B in the given figure.
physics-General
physics-
In the arrangement shown in the figure, the acceleration of the mass is, (Ignore friction)
In the arrangement shown in the figure, the acceleration of the mass is, (Ignore friction)
physics-General
physics-
A man of mass 60 kg is standing on a weighing machine kept in a box of mass 30 kg as shown in the diagram. If the man manages to keep the box stationary the reading in the weighing machine is
A man of mass 60 kg is standing on a weighing machine kept in a box of mass 30 kg as shown in the diagram. If the man manages to keep the box stationary the reading in the weighing machine is
physics-General
physics-
Two bodies of masses 15gm and 25gm are connected by means of a string of length 40 cm and mass 10gm. The string is made to pass over a smooth massless pulley. Initially the two bodies are kept at the same level and released. By the time the heavier mass descends by 10 cm, the acceleration of the system,
Two bodies of masses 15gm and 25gm are connected by means of a string of length 40 cm and mass 10gm. The string is made to pass over a smooth massless pulley. Initially the two bodies are kept at the same level and released. By the time the heavier mass descends by 10 cm, the acceleration of the system,
physics-General
physics-
The reading in the spring balance is
The reading in the spring balance is
physics-General
physics-
If 
and 
the tension in the string connecting 
and 
is,
If and the tension in the string connecting and is,
physics-General
physics-
If 
and 
are the accelerations in the first and second cases, the ratio 
is,
If and are the accelerations in the first and second cases, the ratio is,
physics-General
physics-
The force exerted by string on the pulley is 
The force exerted by string on the pulley is
physics-General
physics-
Three equal weights of mass m each are hanging on a string passing over a fixed pulley as shown in Fig. What are the tensions in the string connecting weights A to B and B to C ?
Three equal weights of mass m each are hanging on a string passing over a fixed pulley as shown in Fig. What are the tensions in the string connecting weights A to B and B to C ?
physics-General
physics-
A light straight fixed at one end to a wooden clamp on a ground passes over a fixed pulley and hangs at the other side. It makes an angle 30° with the ground. A boy weighing 60 kg climbs up the rope. The wooden clamp can tolerate up to vertical force 360 N. Find the, maximum acceleration in the upward direction with which the boy can climb safely. The friction of pulley and wooden clamp may be ignored 
A light straight fixed at one end to a wooden clamp on a ground passes over a fixed pulley and hangs at the other side. It makes an angle 30° with the ground. A boy weighing 60 kg climbs up the rope. The wooden clamp can tolerate up to vertical force 360 N. Find the, maximum acceleration in the upward direction with which the boy can climb safely. The friction of pulley and wooden clamp may be ignored
physics-General
physics-
Consider the shown arrangement. Assume all surfaces to be smooth. If N represents magnitudes of normal reaction between block and wedge, then acceleration of M along horizontal is equal to
Consider the shown arrangement. Assume all surfaces to be smooth. If N represents magnitudes of normal reaction between block and wedge, then acceleration of M along horizontal is equal to
physics-General
physics-
In given figure all surfaces are smooth. The ratio of forces exerted by the wedge on mass 'M' when force ' F' is not applied and when ' F' is applied such that ' M' is at rest with respect to wedge is
In given figure all surfaces are smooth. The ratio of forces exerted by the wedge on mass 'M' when force ' F' is not applied and when ' F' is applied such that ' M' is at rest with respect to wedge is
physics-General
physics-
A uniform rod of length 60 cm and mass 6 kg is acted upon by two forces as shown in the diagram. The force exerted by 45 cm part of the rod on 15 cm part of the rod is
A uniform rod of length 60 cm and mass 6 kg is acted upon by two forces as shown in the diagram. The force exerted by 45 cm part of the rod on 15 cm part of the rod is
physics-General
