A string fixed at both ends first oscillates in its fundamental mode then in second harmonic mode.Then match the following.

A string clamped at both ends vibrates in its fundamental mode. Is there any position (except the ends) on the string which can be touched without disturbing the motion ? What if the string vibrates in its first overtone ?

Two identical strings are stretched at tensions T_(A) and T_(B) . A truning fork is used to set them in vibration. A vibrates in its fundamental mode and B in its second harmonic mode.

A string fixed at its both ends vibrates in 5 loops as shown in the figure

A string of length L fixed at both ends vibrates in its fundamental mode at a frequency v and a maximum amplitude A. (a) Find the wavelength and the wave number k. (b) Take the origin at one end of the string and the X-axis along the string. Take the Y-axis along the direction of the displacement. Take t = 0 at the instant when the middle point of the string passes through its mean position and is going towards the positive y-direction. Write the equation describing the standing wave.

When the open organ pipe resonates in its fundamental mode then at the centre of the pipe

A tube 1.0 m long is closed at one end. A stretched wire is placed near the open end. The wire is 0.3 m long and a mass of 0.01 kg . It is held fixed at both ends and vibrates in its fundamental mode. It sets the air column in the tube into vibration at its fundamental frequency by resonance. Find (a) the frequency of oscillation of the air column and (b) the tension in the wire. Speed of sound in air = 330 m//s .

A stretched string fixed at both end has n nods, then the lengths of the string is