A string is rigidly tied at two ends and its equation of vibration is given by `y=sin2pix.cos2pit`. Then minimum length of string is

A string is rigidly tied at two ends and its equation of vibration is given by y = cos(2 pi t)sin(2 pi x) . Then minimum length of string is

A vibrating string is tied at its two ends. The equation of the wave produced on the string is given by y= cos (2 pi t) sin (2pi x) What is the lenghts of the string,f it is in the fundamental node of vibration ?

The equation for the vibration of a string fixed at both ends vibrating in its third harmonic is given by y=2cm sin[(0.6cm^-1)x]cos[(500pis^-1)t] . The length of the string is

The equation for the vibration of a string fixed at both ends vibrating in its second harmonic is given by y=2sin(0.3cm^(-1))xcos((500pis^(-1))t)cm . The length of the string is :

The equation of a stationary wave on a string clamped at both ends and vibrating in its third harmonic is given by y=0.5 sin (0.314"x") cos (600pit) where x and y are in cm and t is in sec. What is the length of the string?

A string is clamped at both the ends and it is vibrating in its 4^(th) harmonic. The equation of the stationary wave is Y=0.3 sin ( 0.157 x) cos (200 pi t) . The length of the string is: (All quantities are in SI units.)

A string fixed at both ends, oscillate in 4th harmonic. The displacement of particular wave is given as Y=2Asin(5piX)cos(100pit) . Then find the length of the string?

The equation of the standing wave in a string clamped at both ends, vibrating in its third harmonic is given by y=0.4sin(0.314x)cos(600pit) where, x and y are in cm and t in sec. (a) the frequency of vibration is 300Hz (b) the length of the string is 30cm (c ) the nodes are located at x=0 , 10cm , 30cm

The frequency of fundamental mode of vibration of a stretched string fixed at both the ends is 25 Hz. If the string is made to vibrate with 7 nodes , what is the frequency of vibration ? If the length of string is 3 m , what is the frequency of the 4th harmonic ?