[" Q.2A particle in SHM is described by ...

[" Q.2A particle in SHM is described by the "],[" displacement equation "x(t)=A cos(omega t+theta)." If "],[" the initial (t-0) posity of the particle is "1cm],[" and its initial velocity is "pi cm/s" ,what is its "],[" amplitude? The angular frequency of the "],[" particle is "pi s^(-1)" ."],[[" (A) "1cm," (B) "sqrt(2)cm],[" (C) "2cm," (D) "2.5cm],[" C.3A particle executes SHM in a line 4cm long."]]

Similar Questions

Explore conceptually related problems

A particle is SHM is described by the displacement function. x = A cos(omega t + phi), "where," omega = 2pi//T If the initial (t = 0) position of the particle is 1 cm and its initial velocity is pi cms^(-1) , what is the initial phase angle ? The angular frequency of the particle is pi s^(-1) .

A particles is SHM is described by the displacement function x(t)= a cos (omegat+theta). If the initinal (t=0) position of the particle is 1 cm and its initinal velcotiy is pi cm//s. The angular frequncy of the particle is pi rad//s . Then is amplitude is

A particle is SHM is discribed by the displacement function x(t) = a cos (Delta omega + theta) If the initial (t = 0) position of the particle 1cm and its initial velocity is picm//s The angular frequency of the particle is pi rad//s , then its amplitude is

A particle executing SHM is described by the displacement function x(t)=Acos(omegat+phi) , if the initial (t=0) position of the particle is 1 cm, its initial velocity is pi" cm "s^(-1) and its angular frequency is pis^(-1) , then the amplitude of its motion is

A particle executing SHM is described by the displacement function x(t)=Acos(omegat+phi) , if the initial (t=0) position of the particle is 1 cm, its initial velocity is pii" cm "s^(-1) and its angular frequency is pis^(-1) , then the amplitude of its motion is

Similar Questions

Recommended Questions