Show that the power delivered to a body initially at rest and with a constant acceleration, is directly proportional to time.

Kinetic energy of a mass m travelling through some distance d, starting from rest, under action of a constant force F is directly proportional to

If the work done by a body in application of a constant force is directly proportional to the distance travelled by the body, express this in the form of an equation in two variables and draw the graph of the same by taking the constant force as 5 units. Also, send from the graph the work done when the distance travelled by the body is 2 units.

If the work done by a body in application of a constant force is directly proportional to the distance travelled by the body, express this in the form of an equation in two variables and draw the graph of the same by taking the constant force as 5 units. Also, send from the graph the work done when the distance travelled by the body is 0 units.

A body is intially at rest . It undergos one -dimensional motion with constant acceleration . The power delivered to it at time 't' is proportianal to .

(b) Show that the half life period for a zero order reaction is directly proportional to initial concentration.

What is half life period of a reaction ? Show that half period for a zero order reaction is directly proportional to initial concentration.

If potential difference across a conductor, having a material of specific resistance rho remains constant, then according to Joules law, heat developed in the conductor is directly proportional to :