AN object falling rest in air is subject not only in the gravitational force but also to air resistance. Assume that the air resistance is rpoportional to the velocity with constant of proportionality as `k gt 0`, and acts in a direction opposite to motion `(g=9.8m//S^2)`. If the velocity cannot exceed Am/s the nthe value of Ak is

An object falling from rest in air is subject not only to the gravitational force but also to air resistance.Assume that the air resistance is proportional to the velocity with constant of proportionality as k>0, and acts in a direction opposite to motion (g=9.8(m)/(s^(2))) Then velocity cannot exceed.

The force of buoyancy exerted by the atmosphere on a balloon is B in the upward direction and remains constant. The force of air resistance on the balloon acts opposite to the direction of velocity and is proportional to it. The balloon carries a mass M and is found to fall down near the earth's surface with a constant velocity v. How uch mass hsould be removed from teh balloon so that it may rise with a constant velocity v?

A toy car can deliver a constant power of 20W . The resistive force on the car is alphav , where v is velocity of car in m//s . If maximum velocity of car is 2m//s , the value of alpha is .

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 ball is thrown vertically upwards in air, If the resistance cannot be neglected (assume it to be directly proportional to velocity), then choose the correct options. (Assume that resistance force is less than weight of ball and g is acceleration of the ball due to graviy)

A stone is projected with speed 20 m//s at angle 37^(@) with the horizontal and it hits the ground with speed 12m//s due to air resistance. Assume the effect of air resistance to reduce only horizontal component of velocity. Then the time of flight will be-

A block of mass 5kg is falling downwards in air with an acceleration of 2ms^(-2) air resistance is present. The force applied by block on the earth will be (g=10m/s^(2))

A solid rubber ball orf density d and radius R falls vertically through air. Assume that the air resistance acting on the ball is F=KRV where K is constant and V is its velocity. Because of this air resistance the ball attains a constant velocity called terminal velocity v_(T) after some time. Then V_(T)

Two solild spheres manufactured of the same material freely fall down in the air. One sphere has a dimeter twice as large as the other. The force due to air resistance is proportional to the cross-section area of a moving object and is quadration function of the speed of an object and is quadration function of the speed of an object. In sometime after the beginning of motion in the presence of air resistance, the velocity of each sphere become constant. It is called the terminal velocity v_(big)//v_(small) is

A ball is dropped from rest from a tower of height 5m. As a result of the wind it lands at a distance 6m from the bottom of the tower as shown. Assuming no air resistance but that the wind gives the ball a constant horizonta velocity v. Find value of v in m/s.