If a graph is plotted for the square of period `(T^(2))` and mass attached to a spring, its shape will be

The graph between period of oscillation (T) and mass attached (m) to a spring will be

In an elevator, a spring clock of time period T_(s) (mass attached to a spring) and a pendulum clock of time period T_(p) are kept. If the elevator accelerates upwards

The time period of a simple pendulum in a stationary train is T. The time period of a mass attached to a spring is also T. The train accelerates at the rate 5 ms^(-2) . If the new time periods of the pendulum and spring be T_(p) and T_(s) , respectively. Then,

If a graph is plotted between T_(2) and r_(3) for a planet, then its slope will be be (where M_(S) is the mass of the sun)

if a graphs is plotted between the length of a pendulum (l) and its time period (T) then the two guanttities are plotted as "_______" (A) l along X-axis (B) T along Y-axis

For a body of mass m attached to the spring the spring factor is given by

The time period of a mass loaded spring is 'T'. If 20% of its turns are cut and removed and same mass is attached to the remaining spring then it oscillates with a period of

The period of oscillation of a mass M, hanging from a spring of force constant k is T. When additional mass m is attached to the spring, the period of oscillation becomes 5T/4. m/M =