For a damped oscillator with a mass of 370 g, a spring constant 140 N/m and...

A damped mass-spring oscillator loses 6% of its energy during each cycle. a.) The period is...

A damped mass-spring oscillator loses 6% of its energy during each cycle. a.) The period is 6.7 s, and the mass is 0.8 kg. What is the value of the damping constant? b=? kg/s b.) If the motion is started with an initial amplitude of 0.27 m0.27 m, how many cycles elapse before the amplitude reduces to 0.11 m? t/T=?

A damped mass-spring oscillator loses 2% of its energy during each cycle. (a) The period is...

A damped mass-spring oscillator loses 2% of its energy during each cycle. (a) The period is 3.0 s, and the mass is 0.50 kg. What is the value of the damping constant? (b) If the motion is started with an initial amplitude of 0.92 m, how many cycles elapse before the amplitude reduces to 0.75 m? (c) Would it take the same number of cycles to reduce the amplitude from 0.75 m to 0.50 m? No calculations are needed for...

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...

Question 1:A driven and damped mass-spring oscillator has ?= 14.0 g and ?= 1.80 N/m and...

Question 1:A driven and damped mass-spring oscillator has ?= 14.0 g and ?= 1.80 N/m and ?=0.00200 kg/s. The driving frequency is Ω=11.4 rad/s and the driving acceleration is ?=3.33 cm/s2. What is the resulting oscillation amplitude? A.1.56 cm , B.3.32 cm , C.8.20 cm , D.12.7 cm , E.17.7 cm Question 2: A driven and damped mass-spring oscillator has ?= 14.0 g and ?= 1.80 N/m and ?=0.00200 kg/s. The driving frequency is Ω=11.4 rad/s and the driving acceleration...

Please Calculate to give actual numbers!! Consider a damped harmonic oscillator. The oscillating mass, m, is...

Please Calculate to give actual numbers!! Consider a damped harmonic oscillator. The oscillating mass, m, is 4 kg, the spring constant, k, 16 N/m, and the damping force F is proportional to the velocity (F = -m*alpha*v). If the initial amplitude is 20 cm and falls to half after 6 complete oscilltions, calculate a. the damping cooefficient, alpha, b. the energy "lost" during the first 6 oscilations

A simple harmonic oscillator consists of a block of mass 3.30 kg attached to a spring...

A simple harmonic oscillator consists of a block of mass 3.30 kg attached to a spring of spring constant 370 N/m. When t = 0.700 s, the position and velocity of the block are x = 0.198 m and v = 4.450 m/s. (a) What is the amplitude of the oscillations? What were the (b) position and (c) velocity of the block at t = 0 s?

a.) A 100 g mass is oscillating on a spring with a spring constant of 3.0...

a.) A 100 g mass is oscillating on a spring with a spring constant of 3.0 N/m. The mass is initially at 15 cm from the equilibrium position with an initial speed of 80 cm/s. What is the oscillation amplitude? b.) A 200 g mass is oscillating on a spring with a spring constant of 4.0 N/m. The mass is initially at 15 cm from the equilibrium position with an initial speed of 50 cm/s. What is its maximum speed?

A spring with a mass 4 kg and spring constant 3000 N/m has a velocity of...

A spring with a mass 4 kg and spring constant 3000 N/m has a velocity of 12m/s at x=0.6m. a. what is the amplitude of this oscillator? b. what is the energy and maximum velocity of this oscillator?

A particle with mass 2.61 kg oscillates horizontally at the end of a horizontal spring. A...

A particle with mass 2.61 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of 0.923 m and a duration of 129 s for 65 cycles of oscillation. Find the frequency, ?, the speed at the equilibrium position, ?max, the spring constant, ?, the potential energy at an endpoint, ?max, the potential energy when the particle is located 68.5% of the amplitude away from the equiliibrium position, ?, and the kinetic energy, ?, and...

A sinusoidally carrying driving force is applied to a damped harmonic oscillator of force constant k...

A sinusoidally carrying driving force is applied to a damped harmonic oscillator of force constant k and mass m. If the damping constant has a value b1, the amplitude is A1 when the driving angular frequency equals ?(k/m) . In terms of A1, what is the amplitude for the same driving frequency and the same driving force amplitude Fmax, if the damping constant is (a)3b1 and (b)b1/2? The oscillator is now at the resonace condition. If the damping constant b...