A string is vibrating in its fifth overtone between two rigid supports 2.4 m apart. The distance between successive node and antinode is

Find the distance between (2,3) and (4,1).

A taut string at both ends viberates in its n^(th) overtone. The distance between adjacent Node and Antinode is found to be 'd'. If the length of the string is L, then

The distance between two successive particles which differ in phase by

Explain the formation of stationary waves by analytical method. What are nodes and antinodes ? Show that the distance between two successive nodes or antinodes is lambda /2 .

A sound wave in a certain fluid medium is reflected at an obstacle to form a standing wave. The distance between two successive nodes is 3.75 cm. If the velocity of sound is 500 m//s . find the frequency.

A sound wave in a certain fluid medium is reflected at an obstacle to form a standing wave. The distance between two successive nodes is 3.75 cm .If velocity of sound is 1500 m/s , find the frequency.

Explain formation of stationary wave on astretched string. Show that the distance between node and adjacent antinode is lambda//4 .

A 20 cm long string, having a mass of 1.0g , is fixed at both the ends. The tension in the string is 0.5 N . The string is into vibrations using an external vibrator of frequency 100 Hz . Find the separation (in cm) between the successive nodes on the string.

For a stationary wave y = 4 sin (pix//15) cos(96 pi t) . This distance between a node and the next antinode is: