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 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 :

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

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 linear density of a vibrating string is 1.3 xx 10^(-4) kg//m A transverse wave is propagating on the string and is described by the equation y= 0.021 sin (x + 30 t) where x and y are measured in meter and t t in second the tension in the string is :-

The linear density of a vibrating string is 1.3 xx 10^(-4) kg//m A transverse wave is propagating on the string and is described by the equation y= 0.021 sin (x + 30 t) where x and y are measured in meter and t t in second the tension in the string is :-

The linear density of a vibrating string is 1.3 xx 10^(-4) kg//m A transverse wave is propagating on the string and is described by the equation y= 0.021 sin (x + 30 t) where x and y are measured in meter and t t in second the tension in the string is :-

The linear density of a vibrating string is 10^(-4) kg//m . A transverse wave is propagating on the string, which is described by the equation y=0.02 sin (x+30t) , where x and y are in metres and time t in seconds. Then tension in the string is

The linear density of a vibrating string is 10^(-4) kg//m . A transverse wave is propagating on the string, which is described by the equation y=0.02 sin (x+30t) , where x and y are in metres and time t in seconds. Then tension in the string is

The linear density of a vibrating string is 2xx10^(-4) kg/m. A transverse wave is propagating on the string and is described by the equation y=0.021 sin (x + 30 t) where x and y are in metre and t is in second. The tension in the string is