A wave travelling along a string is described by `Y ( x,t ) = 0.005 sin ( 80 x - 3t ) ` in which the numerical constants are in SI units. Calculate (i) amplitude (ii) the wavelength and (iii) the period and frequency of the wave.

A wave travelling along a string is described by Y( x,t) = 0.005 sin ( 80 x - 3t) in which the numerical constants are in SI units. Calculate amplitude.

A wave travelling along a string is described by Y( x,t) = 0.005 sin ( 80 x - 3t) in which the numerical constants are in SI units. Calculate wavelength

A wave travelling along a string is described by, y(x,t)= 0.005 sin(80.0 x-3.0t) in which the numerical constant are in SI units. Calculate the wavelength and frequency of the wave.

A wave travelling along a string is described by y(x, 1) = 0.5 sin (80x – 3t) in which numerical constants are in S.I. unit. Calculate the amplitude, wave length, time period and frequency .

A wave on a string is described by y(x,t)=0.005sin(6.28x-314t) , in which all quantities are in SI units. Calculate its amplitude and wavelength.

A wave travelling along a strong is described by y(x,t)=0.005 sin (80.0x-3.0t) in which the numerical constants are in SI units (0.005m, 80.0 rad m^(-1) and 3.0 rad s^( -1)) . Calculate (a) the amplitude. (b) the wavelength (c) the period and frequency of the wave. Also , calculate the displacement y of the wave at a distance x=30.0 cm and time t=20 s?

A wave travelling along a strong is described by y(x,t)=0.005 sin (80.0x-3.0t) in which the numerical constants are in SI units (0.005m, 80.0 rad m^(-1) and 3.0 rad s^( -1)) . Calculate (a) the amplitude. (b) the wavelength (c) the period and frequency of the wave. Also , calculate the displacement y of the wave at a distance x=30.0 cm and time t=20 s?