Frequency f of a simple pendulum depends on its length l and acceleration g due to gravity according to the following equation
`f=(1)/(2pi)sqrt((g)/(l))`
Graph between which of the following quantities is a straight line ?

If f(x)= 2x and g(x) = (x^(2))/(2) + 1 , then which of the following can be a discontinuous function?

Consider the following function f whose graph is given below. Draw the graph of following functions. (g) 2f(x)

The acceleration due to gravity g and mean density of earth rho are related by which of the following relations ? (G = gravitational constant and R = radius of earth)

Copper of fixed volume V is drawn into wire of length I. When this wire is subjected to a constant force F, the extension produced in the wire is Deltall. Which of the following graphs is a straight line ?

Consider a simple pendulum, having a bob attached to a string, that oscillates under the action of the force of gravity. Suppose that the period of oscillation of the simple pendulum depends on its length (l), mass of the bob (m) and acceleration due to gravity (g). Derive the expression for its time period using method of dimensions.

A particle moves in the xy plane with a constant acceleration 'g' in the negative-direction. Its equation of motion is y = ax-bx^(2) , where a and b are constants. Which of the following are correct?

Assertion : As the mass of simple pendulum increases, its periodic time increases. Reason : Periodic time of simple pendulum is T= 2pi sqrt((l)/(g)) .

The distance of point of a compound pendulum form its centre of gravity is l , the time period of oscillation relative to this point T . If g = pi^(2) , the relation between l and T will be :-