The equation of a wave is given by (all quantity expressed in S.I units) `y=5sin10pi(t-0.01x)` along the x-axis. The magnitude of phase difference between the points separated by a distance of 10 m along x-axis is

The equation of a wave is given by Y = 5 sin 10pi(t - 0.01x) along the x-axis. (All the quantities are expressed in SI units). The phase difference between the points separated by a distance of 10 m along x-axis is

The equation of a travelling wave is given as y=5sin10pi(t-Q.01x), along the x-axis . Here, all quantities are in SI units. The phase difference between the points separated by a distance of 10m alond x-axis is

The equation of a progressive wave is y = 0.4 sin 2pi [(t)/(0.02) - (x)/(60)] , where x is in cm. Thenn the phase difference between two points separated by 6 cm at any instant is

A wave, y_( (x, t) )=0.03 sin pi(2t-0.01x) tavels in a medium. Here, x is in metre. The instantaneous phase differenc ( in rad) between the two point separated by 25cm is

A transverse harmonic wave is described by y(x, t) = 0.05 sin pi(4t - 0.03 x) (x is in metre). What will be the instantaneous phase difference between two points separated by 20 cm ?

For a travelling haromonic wave , y=2.0cos(10t-0.0080x+0.818) where x and y are in cm and t is in sec. What is the phase difference between two points separated by (i) a distance of 0.5m (ii) time gap of 0.5s.

A simple harmonic progressive wave is represented as y = 0.03 sin pi(2t - 0.01x) m. At a given instant of time, the phase difference between two particles 25 m apart is

A travelling wave in a string is represented by y=3 sin ((pi)/(2)t - (pi)/(4) x) . The phase difference between two particles separated by a distance 4 cm is ( Take x and y in cm and t in seconds )

The equation of a plane wave is y = 3 xx 10^(-0.01 x) cos (600 t - 0.78 x + pi//2) where units of y, t and x are 10^(-5) cm, s and m respectively. Write its general expression of phase and also determine (i) its phase at x = 0, t = 0 (ii) phase difference between the points separated by 25 cm along X-axis. (iii) amplitude at x = 200 m

For the plane wave y=2.5xx10^(-0.02x)cos(800t-0.82x+pi/2) , write down (i) the general expression for phase phi (ii) the phase at x=0, t=0 (iii) the phase different between the point separated by 20 cm along x-axis. (iv) the change in phase at a given place 0.6 milli second and (v) the amplitude at x=100m. Take units of y,t,x as 10^(-5)cm , s and m respectively.