A transverse wave propagating on a stretched string of linear density `3xx10^-4 kg-m^-1` is represented by the equation
`y=0.2sin(1.5x+60t)`
Where x is in metre and t is in second. The tension in the string (in Newton) is

The transverse displacement of a string of a linear dinsity 0 . 0 1kgm^(-1) , clamped at its ends is given by Y _(x,t)= 0 . 0 3 sin((2pi x)/(3)) cos (60 pi t) , where x and y arein metres and time t is in seconds . Tension in the string is

When a wave travels in a medium the particles displacement is given by the equation y(x,t)=0.03sin pi (2t-0.01x) Where y and x are in metre and t in second. The wavelengths of the wave is

A simple harmonic oscillation is represented by the equation y=0.4 sin ((440t)/7+0.61x) Where 'Y' and 'X' are in m and time 't' in seconds respectively. The value of time period in seconds

The equation of wave is y=1.0 cos 2pi(t/0.02-x/10) where t is in second. The frequency of the wave is