Time period of a simple pendulum inside a satellite orbiting earth is

Statement-1: The time period of a simple pendulum on a satellite orbiting the earth is infinity Because Statement-2: Effective value of g in orbiting satellite is zero and T = 2pi sqrt((l)/(g))

Assertion : A simple pendulum inside a satellite orbiting the earth has an infinite time period . Reason : Time period of simple pendulum varies inversely with sqrtg

Assertion: The time period of a pendulum on a satellite orbiting the Earth is infinity. Reasons: Time period of a pendulum is inversely proportional to square root of acceleration due to gravity. Which of the following statements is correct?

Assertion : The time period of a pendulum on a satellite orbiting the earth in infinite Reason:The period of a pendulum is inversely propotional to square root of acceleration due to gravity

The time period of a sceond's pendulum in a satellite is

What is the time period of a simple pendulum inside an earth satellite ?

The time period of a simple pendulum inside a stationary lift is T. If it starts descending with acceleration g/5. the new period of the simple pendulum will be