A point performs dampled oscillation with frequency `omega=25 s^(-1)`. Find the damping coefficient `beta` if at the initial moment the velocity of the point is equal to zero and its displacement from the equalibrium position is ` eta=1.020` times lesss than the amplitude at that moment.

A point performs damped oscilaltions with frequency omega and dampled coefficient beta . Find the velocity amplitude of the point as a function of time t if at the moment t=0 (a) its displacement amplitude is equal to a_(0), (b) the displacement of the point x(0)=0 and its velocity projection v_(x(0)=dot(x_(0))

A point performs damped oscillations with frequency omega and damping coefficient beta according to the (4.1b). Find the initial amplitude a_(0) and the initial phase alpha if at the moment t=0 the displacement of the point and its velocity projection are equal to (a) x(0)=0 and u_(x)(0)=dot(x_(0)) , (b) x(0)=x_(0) and v_(x)(0)=0.

A point performs dampled oscillations according to the law x=a_(0)e^(-betat)sin omegat . Find : (a) the oscillation amplitude and the velocity of the point at the moment t=0 , (b) the moments of time at which the point reaches the extreme positions.

A point moves rectilinearly with deceleration whose modulus depends on the velocity v of the particle as w=asqrtv , where a is a positive constant. At the initial moment the velocity of the point is equal to v_0 . What distance will it traverse before it stops? What time will it take to cover that distance?

A point performs simple harmonic oscillation of period T and the equation of motion is given by x = a sin (omega t + (pi)/(6)) . After the elapse of what fraction of the time period, the velocity of the point will be equal to half of its maximum velocity ?

A plank with a bar placed on it performs horizontal harmonic oscillations with amplitude a=10cm . Find the coefficient of friction between the bar and the plank if the former starts sliding along the plank when the amplitude of oscillation of the plank becomes less than T=1.0 s .

A point isotropic source generates sound oscillations with frequency v=1.45 kHz . At a distance r_(0)=5.0 m from the source the displacement amplitude of particles of the medium is equal to the a_(0)=50 mu m, and at the point A located at a distance r=10.0 m from the source the displacement ampitude is eta=3.0 times less than a_(0) . Find : (a) the damping coefficient gamma of the wave, (b0 the velocity oscillation amplitude of particles of the medium at the point A .

Find the angular frequency and the amplitude of harmonic oscillations of a particle if at distances x_(1) and x_(2) from the equalibrium position its velocity equald v_(1) and v_(2) respectively.

A particle performs harmonic oscillations along the x axis about the equilibrium position x=0 . The oscillation frequency is omega=4.00s^(-1) . At a certain moment of time the particle has a coordinate x_(0)=25.0 cm and its velocity is equal to v_(x0)=100cm//s . Find the coordinate x and the velocity v_(x) of the particle t=2.40s after that moment.