A : Inertia depends on the mass of an object.
R : Greater the mass, larger is the force required to change its state of rest or of uniform motion.

Name the force required for circular motion. State its direction.

Force can change the shape of an object but cannot change the mass.

Derive an experession for the period of oscillation of a mass attached to a spring executing simple harmonic motion. Given that the period of oscillation depends on the mass m and the force constant k, where k is the force required to stretch the spring by unit length?

Give two examples to show that greater the mass, greater is the inertia of the body.

A : Acceleration of an object in uniform motion is zero. R : No force is required to move an object uniformly

The energy that an object has due to its state of motion

The amount of heat absorbed or released when a unit mass changes its state ……….

Assertion: Force of friction depends on the actual area of contact. Reason: Larger the area of actual contact, larger is oppose to motion.

Buoyant force on an object completely immersed in a fluid does not depend on the density of the object. It would only depend on the weight of liquid displaced. If the vessel in which an object is immersed is accelerated then the pseudo force acting on the object in the frame of the vessel depends on the mass of the object. The direction of motion of an object relative to a vessel can be found by finding the resultant of buoyant force, the pseudo force, the gravitational force and any other force acting on the body. If in the previous problem the beaker was given a rightward acceleration then relative to the beaker the block will have a tendency to move :

A gun of mass M fires a bullet of mass m with a velocity v relative to the gun. The average force required to bring the gun to rest in 0.5 sec. is