In Melde's experiment, if the length of the string and the tension are kept constant, then the number of loops in perpendicular position is

In Melde's experiment, frequency of fork N and the length of the thread are kept constant. Then the relation between the number of loops p and the tension in the thread T is given by

If the length of the vibrating string is kept constant, then frequency of the string will be directly proportional to

In Melde's experiment in parallel position the mass of the pan is M_(0) . When a mass m_(1) is kept in the pan, the number of loops formed is p_(1) . For the mass m_(2) , the number of loops, formed is p_(2) . Then the mass of the pan M_(0) , in terms of m_(1) , m_(2), p_(1) " and " p_(2) is given by

A tuning fork of frequency 392 Hz , resonates with 50 cm length of a string under tension ( T ). If length of the string is decreased by 2%, keeping the tension constant, the number of beats heard when the string and the tuning fork made to vibrate simultaneously is

In Melde's experiment ,when the tension decreases by 0.011 kg-wt, the number of loop changes from 5 to 6, then what is the initial tension ?

A mass is supported on frictionless smooth horizontalsurface.It is attached to a string rotated about a fixed centre at an angular velocity to. If the length of the string and the angular velocity are doubled (the initial tension is T), then the tension in the string will be

A stone is tied to a string of length L and is whirled in a vertical circle,with the other end of the string at the centre. At a certain instant of time, the stone is at its lowest position and has a speed u. The magnitude of change in velocity as it reaches a horizontal position is

In Melde's experiment, a string of length 0.8 m and mass 1.0 g vibrates in 4 segments when the tension in the string is 0.4 kg-wt. The frequency of the fork is (in perpendicular position)

The string of pendulum of length l is displaced through 90^@ from the vertical and released . Then the minimum strength of string in order to withstand the tension , as the pendulum passes through the mean position is

When the length of muscles remain constant, but the tension increases sharply,it is known as