Problem 1: A particle undergoes simple harmonic motion with a frequency of f,- 10 Hz. At =0; the position of the particle is x(0) = 0.25 m, and the velocity of the particle is v(0) = 0.1 m/s a- Caleulate the angular frequency of the oscillation (w, - ??) b- Find the amplitude of the oscillation (4- ??) c- Determine the phase f from the initial conditions (f-??)

Transcribed Image Text:

1:08 AM A O va all 37 + Assignment1-PHYS360 Assignmentl PHYS360 Problem 1: A particle undergoes simple harmonic motion with a frequency of fo = 10 Hz. At i = 0 ; the position of the particle is x(0) = 0.25 m, and the velocity of the particle is v(0) = 0.1 m/s a- Calculate the angular frequency of the oscillation (w, - ??) b- Find the amplitude of the oscillation (A = ??) c- Determine the phase f from the initial conditions (f=??) d- Find the displacement x at any time t. (x(t) = ??) Problem2: An automobile suspension system is critically damped, and its period of free oscillation with no damping is 1 s. If the system is initially displaced by an amount and released with zero initial velocity (at t= 0; x(0) =x, and v(0) = 0) a- Determine the value of the angular frequency of free oscillation with no damping. (W. = ??) b- Deduce the value of friction factor (g -??) c- Write the expression of position as a function of time of the system, if the system is critically damped. (x() = ??) d- Deduce the expression of the velocity of the system. (v(t) = ??) e- Use the initial conditions find the displacement at t=1 s. (x(1) = ??)