A stone is released from an elevator going up with an acceleration a. The acceleration of the stone after the release is

Which one is released from the ovary?

A particle slides down a smooth inclined plane of elevation theta fixed in an elevator going up with an acceleration a_0 . The base of the incline has a length L. Find the time taken by the particle to reach the bottom.

Consider the stituation shown in figure. The elevator is going up with an acceleration of 2.00 ms^-2 and the focal length of the mirror is 12.0 cm. All the surfaces are smooth and the pulley is light. The mass-pulley system is released from rest (with respect to the elevator) at t=0 when the distance of B from the mirror is 42.0 cm. Find the distance between the image of the block B and the mirror at t=0.200 s. Take g=10 ms^-2

If a stone is released from a tower, then its total energy during its fall.

An elevator is descending with uniform acceleration.To measure the acceleration, a person in the elevator drops a coin at momen the elevator strts. The coin is 6 ft asbove the floor of the elevator at the time it is dropped. The person observes that the coin strikes the floor in 1 second. Calculate these dta the acceleration of the elevator.

A simple pendulum of length l is suspended through the ceiling of an elevator. Find the time period of small oscillations if the elevator a. is going up with an acceleration a_0 . b. is going down with an acceleration a_0 and c. is moving with a uniform velocity.

Suppose the ceiling in the previous problem is that the elevator which is going up with an acceleration of 2.0 m/s^2 . Find the elongations.

Two indentical balls, each having a charge of 2.00xx10^(-7) C and a mass of 100g , are suspended from a common point by two insulating strings each 50 cm long. The balls are held at a separation 5.0cm apart and then released. Find (a) the electric force on one of the charged balls (b) the components of the resultant force on it along and perpendicular to the string (c) the tension is the string (d) the acceleration of one of the balls. Answers are to be obtained just after the release.

A body a starts from rest with an acceleration a_(1) . After 2s, another body B starts from rest with an acceleration a_(2) . If they travel equal distances in the 5^(th) second after the start of A then, the ratio a_(1) :a_(2) is equal to :