A linear harmonic oscillator of force constant `2 xx 10^(6)N//m` and amplitude `0.01 m` has a total mechanical energy of `160 J`. Its

A linear harmonic oscillator of force ocnstant 2xx10^(6)N//m and amplitude 0.01 m has a total mechanical energy of 160J. What is the maximum K.E. and minimum P.E.?

A linear harmonic oscilator of force constant 2xx10^(6) N//m times and amplitude 0.01 m has a total mechanical energy of 160 Joules. Its

A linear harmonic oscillator of force constant 2 xx 10^(6) N //m and amplitude 10 mm has a total mechanical energy is 160 J . Its

A linear harmonic oscillator of force constant 10^(6) N//m and amplitude 2 cm has

A linear harmonic oscillator of force constant 2 xx 106Nm^(-1) and amplitude 0.01m has a total mechanical energy 160 J . Among the followinhg statement , which are correct? i Maximum PE is 100J ii Maximum KE is 100J iii Maximum PE is 160J iv Maximum PE is zero

A linear harmoinc oscillator of force constant 10^(6)N/m and amplitude 1cm has a total mechanical energy of 80j . The its maximum

A linear harmonic oscillator of force constant 6 xx 10^(5) N/m and amplitude 4cm, has a total energy 600J. Select the correct statement.

A harmonic oscillation of force constant 4xx10^(6) Nm^(-1) and amplitude 0.01 m has total energy 240 J. What is maximum kinetic energy and minimum potential energy?

The force constant of a simple harmonic oscillator is 3 xx 10^(6) N//m , amplitude 0.02 m has a total energy of 1250 J

For the spring pendulum shown in fig. the value of spring constant is 3xx10^4(N)/(m) and amplitude of oscillation is 0.1m . The total mechanical energy of oscillating system is 200 J. Mark out the correct option (s).