The distance covered by a moving body is directly proportional to the square of the time. The acceleration of the body is:

The distance travelled by a body is directly proportional to the square of time. What type of motion this body has?

Distance travelled by a particle in motion is directly proportional to the square of the time of travel. In this stage acceleration of the particle is

Displacement of a moving particle is directly proportional to the square of the time duration. State whether the particle is moving at a constant velocity or at a constant acceleration.

The displacement of a particle is directly proportional to the third power of time. What will be the nature of acceleration of the particle?

A particle is moving in a straight line such that its retardation is directly proportional to its displacement . Decrease in the kinetic energy of the body is directly proportional to

The distance through which a heavy body falls from rest varies as the square of the time of fall . If the body falls 400 feet in 5 seconds then find the distance through which it will fall in 10 seconds and in the tenth second .

Induced emf is directly proportional to the rate of change with time of magnetic_______linked with a coil.

Statement I : A particle moving with uniform acceleration has its displacement proportional to the square of time. Statement II : If the motion of a particle is represented by a straight line on the velocity -time graph its acceleration is uniform.

According to Newton's law of gravitation , everybody in this universe attracts every other body with a force, which is directly proportional to the product of their masses and the inversely proportional to the square of the distance between their centres, i.e., F prop (m_1m_2)/(r^2) or F=G(m_1m_2)/(r^2) where G is universal gravitational constant =6.67xx10^(-11)N*m^2*kg^(-2) . Read the above passage and answer the following questions : (ii) How is the gravitational force between two bodies affected when distance between them is halved ?