Sinusoidal Waves On Strings

Figure given shows a sinusoidal wave on a string. If the frequency of the wave is 150 Hz, what is the velocity and wavelength of the given wave?

Figure given shows a sinusoidal wave on a string. If the frequency of the wave is 150 Hz, what is the velocity and wavelength of the given wave?

A sinusoidal wave on a string is described by the wave function where x and y are in metres and t is in seconds. The mass per unit length of this string is 12.0 g//m . Determine (a) the speed of the wave, (b) the wavelength, (c ) the frenquecy and (d) the power transmitted to the wave.

A sinusoidal wave on a string is described by the wave function where x and y are in metres and t is in seconds. The mass per unit length of this string is 12.0 g//m . Determine (a) the speed of the wave, (b) the wavelength, (c ) the frenquecy and (d) the power transmitted to the wave.

The tension in a string with a linear density of 0.0010 kg/m iş 0.40 N. A 100 Hz sinusoidal wave on this string has a wavelength of

A string of total mass 100g & total length 2m is under tension due to the weight of an object of mass 8kg .If the resulting sinusoidal wave in the string has an amplitude of 6cm and frequency 60Hz the power that must be supplied to the string is

The string shown in the figure has a sinusoidal wave travelling towards right. The frequency of the wave is n. the correct statement (s) is/are.

The string shown in the figure has a sinusoidal wave travelling towards right. The frequency of the wave is n. the correct statement (s) is/are.

A sinusoidal wave is traveling on a string with speed 40 cm/s. The displacement of the particle of the string at x = 10 cm varies with time according to y = (5.0cm) sin (1.0-4.0s^(-1))t) The linear density of the string is 4.0 g/cm

The figure shows y (transverse displacement) vs x (position) graph for a sinusoidal wave travelling along a stretched string. P is power transmitted through a cross section of the string at the instant shown. Plot the graph of P versus x.