The equation of a wave travelling on a string is d

The equation of a wave travelling on a string is y = (0.10 mm) sin [(31.4 m^(-1)) x + (314 s^(-1))t] (a) In which direction does the 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 given by Y(mn) = 8 sin[ (5m^(-1)x-(4s^(-1)t ]. Then

The equation of a wave travelling on a string is y=4sin[(pi)/(2)(8t-(x)/(8))] , where x,y are in cm and t in second. They velocity of the wave is

The equation of a wave travelling on a string is y=8 sin [pi/2 (4t-x/16)] , where x, y are in cm and t in second. The velocity of the wave is

The equation of a wave travelling on a string stretched along the X-axis is given by y=Ae^(((-x)/(a) + (t)/(T))^(2) (a) Write the dimensions of A, a and T. (b) Find the wave speed. (c) In which direction is the wave travelling? (d) Where is the maximum of the pulse located at t =T and at t = 2T ?

The equation of a wave travelling in a string can be written as y=3cos pi ( 100 t- x) . Its wavelength is

The equation of a wave travelling in a string can be written as y=3 cos pi (100 t-x) . Ita wavelength is

The equation of a wve travelling on a string stretched along the X-axis is given by y=Ad^(-(x/at/T)^2) a. Write the dimensions of A, a and T. b. Find the wave speed. c.In which direction is the wave travelling? d.Where is the maximum of the pulse located at t=T? At t=2T?

The equation of a wave travelling on a stretched string along the x-axis is y = ae^(-(bx+ct)) . The direction of propagation of wave is