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What causes the freely falling body to accelerate to the ground?
The mutual attractive forces of gravity between the body and the Earth.
What is freely body?
A freely body is the body which is freely falling under the force of gravity i.e. an acceleration of 9.8 m/s2
What is the free body diagram of a body falling freely?
A free body diagram is a representation of how the forces that are acting on a point or particle interact. You place your point at the origin and then draw your forces with their tails placed at the point
The sumof the kinetic and potential energies of a freely falling body is?
The sum of the kinetic and potential energies of a freely falling body is constant and equal to the total mechanical energy. This is a result of the conservation of energy principle, where the body's potential energy is converted into kinetic energy as it falls, keeping the total energy constant.
What is the direction of the acceleration of a freely falling body?
9.8 m/s2
When a body is falling freely which force act on it?
When a body is falling freely, the only force acting on it is gravity. This force causes the body to accelerate downwards at a rate of 9.81 m/s^2 near the surface of the Earth.
What is the effect of mass of a freely falling body on the gravitational accelaeration?
None whatsoever.
Which type of motion is exhibited by a freely falling body?
A freely falling body exhibits uniform acceleration motion due to the force of gravity acting on it. This means that the body's speed increases by the same amount every second as it falls towards the Earth.
What is the force that pulls the freely falling body towards the earth is called?
Gravitational Force
What is the effect of distance of freely falling body from the centre of earth on gravitational acceleration?
a nswer
What is the kinetic energy for freely falling body at the ground level?
The kinetic energy of a freely falling body at ground level is equal to its potential energy at the starting height, assuming no air resistance or other external forces are acting on it. The kinetic energy is given by ( KE = \frac {1}{2} m v^2 ), where (m) is the mass of the object and (v) is its velocity just before hitting the ground.
Examples of acceleration motion?
A freely falling body Planet going around the sun electron going around the nucleus
