3. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 7?̇ + 10?...

2. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 2?̇ + 122?...

2. Consider a spring-mass-damper system with the equation of motion given by: ?̈+ 2?̇ + 122? = 0 a) Is the system overdamped, underdamped or critically damped? Does the system oscillate? If the system oscillates, compute the frequency of the oscillations in rad/s and Hz. b) Determine the displacement response if the initial conditions are ?0 = −1 mm and ?0 = 12 mm/s

A block moving on the end of a spring with a force constant ? = 2.5...

A block moving on the end of a spring with a force constant ? = 2.5 ?⁄? is acted on by a damping force ?? = −???. (a) If the constant b has the value 0.9 kg/s, what is the frequency of oscillation of the block? (b) For what value of b will the motion be critically damped? (c) Draw brief sketches and explain the difference between underdamped, critically damped and overdamped oscillations.

A block moving on the end of a spring with force constant ? = 2.5 ?⁄?...

A block moving on the end of a spring with force constant ? = 2.5 ?⁄? is acted on by a damping force ?(?) = −??(?) (a) If the constant b has the value 0.9 kg/s, what is the frequency of oscillation of the block? (b) For what value of b will the motion be critically damped? (c) Draw brief sketches and explain the difference between underdamped, critically damped and overdamped oscillations.

Consider the mass-spring systems with spring constant 1 and damping constant b. For which values of...

Consider the mass-spring systems with spring constant 1 and damping constant b. For which values of b is this system underdamped, overdamped, undamped, or critically damped?

11.2 A mass oscillates on a spring of force constant 25.0 N/m and is subjected to...

11.2 A mass oscillates on a spring of force constant 25.0 N/m and is subjected to a damping force Fx = ?bvx , where b = 2.40 kg/s. (a) What special value of the mass m determines whether the mass undergoes underdamped oscillations, is critically damped, or is overdamped? (b) If m is eight times this special value, how long does it take for the amplitude to be reduced by 50%? What is the period of the oscillation? Plot the...

Q3// The mass-spring-damper system has a 2 kg block is displaced by an amplitude of 50...

Q3// The mass-spring-damper system has a 2 kg block is displaced by an amplitude of 50 mm and released. If the phase angle of response is 84.17ᴼ, how many cycles (m) will be executed before the amplitude is reduced to 1 mm. What are the undamped natural frequency ωn and spring constant k if the period of damped oscillation τd is 0.3 sec.

2. A child’s toy consists of a truck that is mounted on a spring and moves...

2. A child’s toy consists of a truck that is mounted on a spring and moves horizontally on a surface. The truck has a mass of 50 g and the spring constant is 1.25 N/m. Assume the drag force is linear. (a) What is the natural frequency of the toy (include units)? (b) Draw a free body diagram for the truck and write down the equations of motion. (c) If the drag coefficient, b, is 0.6 kg/s, is the system...

Given the spring-mass-damper system with the equation shown below. f(t) is an impulse. Use Laplace transform...

Given the spring-mass-damper system with the equation shown below. f(t) is an impulse. Use Laplace transform method to find the response (in the time domain) for this system.

A block of mass 2.5 kg is connected to a spring with k=1250 N/m. (a) At...

A block of mass 2.5 kg is connected to a spring with k=1250 N/m. (a) At t = 0 the block is released from rest at x(t = 0) = 28 mm from equilibrium. The motion is linearly damped with b = 50 kg/s. Find the amplitude A and phase angle ?. (Note that the amplitude is not obviously the displacement at t = 0 as it would be for the undamped case!) (b) Now consider a driving force with...

A horizontal mass spring oscillator is constructed, where the mass of the oscillator is 3 kg,...

A horizontal mass spring oscillator is constructed, where the mass of the oscillator is 3 kg, the spring constant is 3 kg/s, and the friction parameter of the medium b kg/s. Denote the displacement of the oscillator from the equilibrium position by y(t). Find the equation _______=0 The spring is critically damped when b=___ When b=0, the frequency of the oscillation will be ___s^-1. When b=3, the frequency of oscillation will be ____s^-1.