A transverse priodic wave on a string with a linear mass density of `0.200kg//m` is described by the following equation `y=0.05sin(420t-21.0x)` Where x and y are in metres and t is in seconds. The tenson in the string is equal to

A transverse periodic wave on a string with a linear mass density of 0.200 kg/m is described by the following equation y=0.05 sin (420t-21.0 x) where x and y are in metres and t is in seconds.The tension in the string is equal to :

A transverse periodic wave on a string with a linear mass density of 0.200 kg/m is described by the following equation y=0.05 sin (420t-21.0 x) where x and y are in metres and t is in seconds.The tension in the string is equal to :

A transverse periodic wave on a string with a linear mass density of 0.200 kg//m is described by the following equation y = 0.05 sin(420t - 21.0 x) where x and y are in meters and t is in seconds. The tension in the string is equal to :

A transverse periodic wave ona strin with a linear mass density of 0.200kg/m is described by the following equations y=0.05sin(420t-21.0x) where x and y in metres and t is in seconds. Tension in the string is

A transverse periodic wave ona strin with a linear mass density of 0.200kg/m is described by the following equations y=0.05sin(420t-21.0x) where x and y in metres and t is in seconds. Tension in the string is

A transverse periodic wave ona strin with a linear mass density of 0.200kg/m is described by the following equations y=0.05sin(420t-21.0x) where x and y in metres and t is in seconds. Tension in the string is

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

A transverse wave propagating on a stretched string of linear density 3 xx 10^-4 kg-m^-1 is represented by the equation y=0.2 sin (1.5x+60t) Where x is in metre and t is in second. The tension in the string (in Newton) is

A transverse wave propagating on a stretched string of linear density 3xx10^-4 kg-m^-1 is represented by the equation y=0.2sin(1.5x+60t) Where x is in metre and t is in second. The tension in the string (in Newton) is

A transverse wave propagating on a stretched string of linear density 3 xx 10^(-4) kg m^(-1) is represented by the equation y = 0.2 sin (1.5 x + 60 t) Where x is in metres and t is in seconds . The tension in the string (in newtons) is :