A simple harmonic motion is represented by the equation, y = 5 sin `pi(t+4)`. Then the values of amplitude A and initial phase `prop` are respectively.

A simple harmonic wave having an amplitude a and time period T is represented by the equation y = 5"sin"pi(t + 4)m . Then the value of amplitude (a) in (m) and time period (T) in second are

A simple harmonic oscillation is represented by the equation, y = 0.40 sin ( 440 t + 0.61) Here y and t are in m and s respectively. What are the values of initial phase ?

A simple harmonic oscillation is represented by the equation, y = 0.40 sin ( 440 t + 0.61) Here y and t are in m and s respectively. What are the values of frequency of oscillations?

A simple harmonic oscillation is represented by the equation, y = 0.40 sin ( 440 t + 0.61) Here y and t are in m and s respectively. What are the values of time period of oscillations?

A simple harmonic motion having an amplitude A abd time period T is represented by the equation :y=5 sin pi(t-4)m . Then the values of A ("in m") and T("in sec") are:

A simple harmonic motion is represented as x = 20 sin (2pi)t + 0.5]m find amplitude, angular frequency time period and initial phase.

A simple harmonic motion is represented by F(t)=10sin(20t+0.5) . The amplitude of the S.H.M. is

A simple harmonic motion is represented by : y = 5(sin 3pi t + sqrt(3) cos 3pi t)cm The amplitude and time period of the motion are :

A simple harmonic motion is represented by : y=59sin3pit+sqrt(3)cos3pit)cm The amplitude and time period of the motion by :

A simple harmonic oscillation is represented by the equation. y=0.40sin(440t+0.61) Here y and t are in m are s respectively. What are the values of (i) amplitude (ii) angular frequency (iii) frequency of oscillations (iv) time period of oscillations and (v) initial phase?