Under the force of gravity, a heavy body falls quicker than a light body. (neglect air resistance).

The force of gravity on a body of mass W is

When a heavy body collides with a light-body, which one experience greater force?

Consider the following statements: 1. The gravitational force exerted by the sun on the moon is greater than the gravitational force exerted by the earth on the moon. 2. A heavy body falls at a faster rate than a light body in vaccum. Which of the following statements given above is/are correct?

What is the direction of force of gravity on a body?

What is the acceleration produced in a freely falling body of mass 10 kg ? (Neglect air resistance)

When a body falls in air, the resistance of air depends to a great extent on the shape of the body, 3 different shapes are gives. Identify the combination of air resistances which truly represents the physical situation. (the cross sectional areas are the same).

A body falls from rest freely under gravity with an acceleration of 9.8 m//s^(2) . Neglecting air resistance, the distance travelled by the body during the third second of its motion will be:

A block is dropped from a high tower and is falling freely under the influence of gravity. Which one of the following statements is true concerning this situation ? Neglect air resistance.

When a body falls in a air, the resistance of air depends to a great extent on the shape of the body. The different shapes are givne. Identify the combination of air resistance which truly represents the physical situation? (The cross-sectional areas are the same)