The transverse displacement of a string (clamped at its both ends) is given by `y(x,t)=0.06sin(2pix//3)cos(120pit)`.
All the points on the string between two consecutive nodes vibrate with

The transverse displacement of a string (clamped at its both ends) is given by y(x,t)=0.06 sin ((2pi/3)x)cos( 120pit ) where xand y are in m and tin s. The length of the string is 1.5 m and its massis 3.0 xx10^-2 kg . Determine the tension in the string

The transvers displacement of a string (clamped at its both ends) is given by y(x,t) = 0.06 sin ((2pi)/(3)s) cos (120 pit) Where x and y are in m and t in s. The length of the string 1.5 m and its mass is 3.0 xx 10^(-2) kg. Interpret the wave as a superposition of two waves travelling in opposite directions. What is the wavelength, frequency, and speed of each wave ?

The transvers displacement of a string (clamped at its both ends) is given by y(x,t) = 0.06 sin ((2pi)/(3)s) cos (120 pit) Where x and y are in m and t in s. The length of the string 1.5 m and its mass is 3.0 xx 10^(-2) kg. Does the function represent a travelling wave or a stationary wave ?

The transverse displacement y(x,t) of a wave on a string is given by y(x,t) = e^(-(ax^2+bt^2-2sqrt(abxt) ) This represents a :

A travelling harmonic wave on a string is described by y(x, t)= 7.5 sin (0.0050x +12t+ (pi//4)) Locate the points of the string which have the same transverse displacements and velocity as the x = 1 cm point at t = 2 s, 5 s and 11s.

A travelling harmonic wave on a string is described by , y=7.5 sin (0.0050x+12t+pi//4) Locate the points of the string which have the same transverse displacements and velocity as the x=1 cm points at t=2s,5s,11s.

When a wave travels in a medium,the particle displacements are given by : y(x,t)=0.03 sin pi(2t-0.01x) where y and x are in m, etres and t in seconds.the wavelength of the wave is :

lf sin(x-y)-cos(x + y) = 1/2 then the values of x & y lying between 0 and pi are given by

Given below are some functions of x and t to represent the displacement of an elastic wave. y=100cos(100pit+0.5x) State which of these represent a travelling wave along -x direction a stationary wave beats a travelling wave along +_(x) directions. Given reason for your answers.