A simple harmonic travelling wave is represented by `y=50sinpi(20t-0.08x)` is SI units. Find its amplitude, time period and wavelength. Also, calculate maximum particle velocity.

The amplitude of a wave is represented by y = 0.2 sin 4 (pi) [ t / 0.08 - x / 0.8 ] in SI units. Find amplitude of the wave

A simple harmonic progressive wave is given by the equation, y = 0.1 sin 4 pi (50 t - 0.2 x) in SI units. Find the period, wavelength and speed of the wave.

The amplitude of a wave is represented by y = 0.2 sin 4 (pi) [ t / 0.08 - x / 0.8 ] in SI units. Find wave length

A simple harmonic motion is represented by x=10sin (20t+0.5) where x is in metre and t is in second. Find its amplitude, angular frequency, frequency and time period.

The amplitude of a wave is represented by y = 0.2 sin 4 (pi) [ t / 0.08 - x / 0.8 ] in SI units. Find frequency

A simple harmonic motion is represented by x=10sin(20t+0.5). Write down its amplitude, angular frequency, frequency, time period and initial phase if displacement is measured in metres and time seconds.

If the equation for the transverse wave in a string is given by y=5 sin 2 pi(t/(0.02)-x/50) with lengths expressed in cm and time period in seconds, calculate the wave velocity and maximum particle velocity.

A simple harmonic oscillation is represented by the equation y = 0.5sin(50pi t+1.8) . Where y is in meter and t is in second. Find its amplitude, frequency, time period and initial phase.

A simple harmonic wave is represented as y = "5 sin" (pi)/(2) (100 t - 2x) x, y are in metres, t in seconds. The ratio of maximum particle velocity to wave velocity will be