Explain the reflection of waves in string at fixed end and free end.

A wave y_i = 0.3 cos (2.0x - 40t) is travelling along a string toward a boundary at x=0. Write expressions for the reflected waves if . (a) the string has a fixed end at x=0 and (b) The string has a free end at x=0. Assume SI units.

Explain the formation of standing waves in a string clamped at both ends and discuss the various modes of vibration.

A string of length 2m is fixed at two ends. It is in resonance with a tuning fork of frequency 240 Hz in its third harmonic. Then speed of wave sound in string and its fundamental frequency is:

Assertion:- Transvers waves are produced in a very long string fixed at one end. Near the free end only progressive wave is observed. Reason:- Energy of reflected wave does does not reach the free end.

A 160 g rope 4 m long is fixed at one end and tied to a light string of the same length at the other end. Its tension is 400 N. (a) What are the wavelength of the fundamental and the first two overtones? (b) What are the frequencies of these standing waves? [Hint : In this case, fixed end is a node and the end tied with the light string is antinode.]

A body of mass M is hanging by an inextensible string of mass m. If the free end of the string accelerates up with constant acceleration a. find the variation of tension in the string a function of the distance measured from the mass M (bottom of the string).

Four pieces of string of length L are joined end to end to make a long string of length 4L. The linear mass density of the strings are mu,4mu,9mu and 16mu , respectively. One end of the combined string is tied to a fixed support and a transverse wave has been generated at the other end having frequency f (ignore any reflection and absorption). string has been stretched under a tension F . Find the time taken by wave to reach from source end to fixed end.

What is maximum possible wavelength of standing waves in 1m long string if it is fixed at both ends

Draw a diagram to show the shape of a square wave pulse on a string when it gets reflected from (i) fixed boundary and (ii) a free end boundary.

A standing wave is produced on a string on a string clamped at one end and free at the other. The length of the string