Consider the wave `y=(5mm)sin[(1cm^-1)x-(60s^-1)t]`. Find the amplitude, b. the wave number, c the wavelenth d. the frequencey e. the time period and f. the wave velocity.

Consider the wave y=(5mm)sin[(1cm^-1)x-(60s^-1)t] . Find the amplitude, b. the wave number, c the wavelength d. the frequency e. the time period and f. the wave velocity.

Consider the wave y=(5mm)sin[(1cm^-1)x-(60s^-1)t] . Find the amplitude, b. the wave number, c the wavelength d. the frequency e. the time period and f. the wave velocity.

Consider the wave y = (10 mm) sin[(5picm^(-1))x-(60pis^(-1))t + (pi)/(4)] . Find (a) the amplitude (b) the wave number (c) the wavelength (d) the frequency f the time period and (f) the wave velcity (g) phase constant of SHM of particle at x = 0 .

Consider the wave y = (5 mm) sin[1 cm^(-1) x - (60 s^(-1)) t] . Find (a) the amplitude, (b) the angular wave number, ( c ) the wavelength, (d) the frequency, (e) the time period and (f) the wave velocity.

Consider the wave y = (5 mm) sin[1 cm^(-1) x - (60 s^(-1)) t] . Find (a) the ampitude, (b) the angular wave number, ( c ) the wavelength, (d) the frequency, (e) the time period and (f) the wave velocity.

The equation of a wave travelling on a string is y=(0.10mm)sin[3.14m^-1)x+(314s^-1)t] . (a) In which direction does the wave travel ? (b) Find the wave speed, the wavelength and the frequency of the wave. (c) What is the maximum displacement and the maximum speed of a portion of the string ?

The equation of a wave travelling on a string is y=(0.10mm)sin[3.14m^-1)x+(314s^-1)t] . (a) In which direction does the wave travel ? (b) Find the wave speed, the wavelength and the frequency of the wave. (c) What is the maximum displacement and the maximum speed of a portion of the string ?

The equation of a wave travelling on a string is y=(0.10mm)sin[3.14m^-1)x+(314s^-1)t] . (a) In which direction does the wave travel ? (b) Find the wave speed, the wavelength and the frequency of the wave. (c) What is the maximum displacement and the maximum speed of a portion of the string ?

Figure shows a plot of the transverse displacements of the particles of a string at t = 0 through which a travelling wave is passing in the positive x-direction. The wave speed is 20 cms^-1 . Find (a) the amplitude, (b) the wavelength, (c) the wave number and (d) the frequency of the wave. .