Given that `T` stands for time and `l` stands for the length of simple pendulum . If `g` is the acceleration due to gravity , then which of the following statements about the relation `T^(2) = ( l// g)` is correct?

Given that T stands for time period nd 1 stands for the length of simple pendulum. If g is the acceleration due to gravity, then which of the following statements about the relation T^(2)=(l)/(g) is correct ? (I) It is correct both dimensionally as well unmerically (II) It is neither dimensionally correct nor numerically (III) It is dimensionally correct but not numerically (IV) It is numerically correct but not dimensionally

State how does the time period of a simple pendulum depend on acceleration due to gravity.

Which of the following are incorrect statements about acceleration due to gravity ?

Which of the following statements are true about acceleration due to gravity?

Calculate the time period of a simple pendulum of length one meter. The acceleration due to gravity at the place is pi^2ms^-2 .

Which of the following statements are true about acceleration due to gravity

If unit of length and time is doubled the numerical value of g (acceleration due to gravity ) will be

The graph between time period ( T ) and length ( l ) of a simple pendulum is

If g is acceleration due to gravity on the surface of the earth, having radius R , the height at which the acceleration due to gravity reduces to g//2 is

If a Seconds pendulum is moved to a planet where acceleration due to gravity is 4 times, the length of the second's pendulum on the planet should be made