The transverse displacement of a vibrating string is `y=0.06 "sin" (pi)/(3) xx cos (120 pi)`
If mass per unit length of the string is `2xx 10^(-2) kg m^(-1)`, the tention in the string will be

The equation of a transverse wave propagating in a string is given by y = 0.02 sin (x + 30t) where, x and y are in second. If linear density of the string is 1.3 xx 10^(-4)kg//m , then the tension in the string is

The transverse displacement of a string (clamped at its two ends ) is given by y(x,t)=0.06sin((2pi)/(3))xcos(120pit) wherer x ,y are in m and t ini s. The length of the string is 1.5m and its mass is 3xx10^(-2) kg. Answer the following: (i) Does the function represent a travelling or a stationary wave ? (ii) Interpret the wave as a superimposition of two waves travelling in opposite directions. What are the wavelength, frequency and speed of propagation of each wave ? (iii) Determing the tension in the string.

The equation of a transverse wave propagating in a string is y=0.02sin(x-30t) . Hwere x and y are in metre and t is in second. If linear density of the string is 1.3xx10^(-4)kg//m , then the tension in the string is :

The transverse displacement of a string fixed at both ends is given by y=0.06sin((2pix)/(3))cos(100pit) where x and y are in metres and t is in seconds. The length of the string is 1.5 m and its mass is 3.0xx10^(-2)kg . What is the tension in the string?

The transverse displacement of a string clamped at its both ends is given by y(x, t) = 0.06 sin ((2pi)/3 x) cos(l20pit) where x and y are in m and t in s. The length of the string is 1.5 m and its mass is 3 xx 10^(-2) kg. The tension in the string is

The transvers displacement of a string (clamped at its both ends) is given by y(x,t) = 0.06 sin ((2pi)/(3)s) cos (120 pit) Where x and y are in m and t in s . The length of the string 1.5 m and its mass is 3.0 xx 10^(-2) kg . Answer the following : (a) Does the funcation represent a travelling wave or a stational wave ? (b) Interpret the wave as a superposition of two waves travelling in opposite directions. What is the wavelength. Frequency and speed of each wave ? Datermine the tension in the string.

The displacement of a string is given by y(x,t)=0.06sin(2pix//3)cos(120pit) where x and y are in m and t in s. The lengthe of the string is 1.5m and its mass is 3.0xx10^(-2)kg.

A string is producing transverse vibration whose equation is y = 0.021 sin ( x + 30 t ) , where x and y are in metre and t is in second . If the linear density of the string is 1.3xx10^(-4)kg//m , then tension in string in newton will be

The transverse displacement of a string (clamped at its both ends ) is given by y(x,t)=0.06sin(2pix//3)cos(120pit). All the points on the string between two consecutive nodes vibrate with