A 12 m long vibrating string has the speed of wave 48 m/s . To what frequency it will increase .

A transverse wave along a stretched string has a speed of 30 m/s and a frequency of 250 Hz. Then the phase difference between two points on the string 10 cm apart at the same instant is

Particles on a string vibrate with amplitude of 6cm speed of wave is 300 m/s and angular frequency of oscillations is 245. Find wave equation of wave is travelling along positive x-direction.

A string 2.0 m long and fixed at its ends is driven by a 240 Hz vibrtor. The string vibrates in its third harmonic mode. The speed of the wave and its fundamental frequency is :

Standing waves are producedin a rubber tube 12m long . If the tube vibrates in five segmens and the velocity of the wave is 480m//s , what is (a) the wave length of the waves (b) the frequency of the wave ?

A 1.50 m long rope is stretched between two supports with a tension that makes the speed of transverse waves 48.0 m//s . What are the wavelength and frequency of (a) the fundamental? (b) the second overtone? (c) the fourth harmonic?

A tuning fork of frequency 256 Hz gives 5 beats // s with a vibrating string of a piano. The beat frequency decreases to 2, when tension in the string is slightly increased. What was the frequency of the piano string before increasing the tension ?

Vibrations with frequency 6.00 xx 10^2 Hz are established on a 1.33 m length of string that is clamed at both ends. The speed of waves on the string is 4.0 xx 10^2 m//s How many antinodes are contained in the resulting standing wave pattern?