Calculate the KE and PE of an oscillator when it is at half of its amplitude....

If I have a simple harmonic oscillator with an amplitude 4.2cm and has a total energy...

If I have a simple harmonic oscillator with an amplitude 4.2cm and has a total energy of 0.400J What would be the max speed of the the mass if the mass hanging on the oscillator is 3kg, and what is it's period of oscillation. Also, what is the kinetic energy of the entire system when the position of the oscillator is 0.850 cm from the center?

An oscillator with a mass of 510 g and a period of 1.20 s has an...

An oscillator with a mass of 510 g and a period of 1.20 s has an amplitude that decreases by 1.30% during each complete oscillation. Part A If the initial amplitude is 13.6 cm , what will be the amplitude after 50.0 oscillations? cm SubmitMy AnswersGive Up Part B At what time will the energy be reduced to 51.0% of its initial value? s

A simple harmonic oscillator consists of a mass of 100g attached to a constant spring is...

A simple harmonic oscillator consists of a mass of 100g attached to a constant spring is 10^4 dynas/cm. At time t=0, the mass is about 3 cm from the equilibrium point and with an initial velocity of 5cm/s, both in the positive direction.A dissipative force is now added. Assume that you start moving from rest at the maximum amplitude position, and after oscillating for 10 s, your maximum amplitude is reduced to half of the initial value. Calculate: A- dissipation...

An oscillator with a mass of 470 g and a period of 0.600 s has an...

An oscillator with a mass of 470 g and a period of 0.600 s has an amplitude that decreases by 1.30% during each complete oscillation. If the initial amplitude is 7.60 cm , what will be the amplitude after 37.0 oscillations?

An oscillator consists of a block of mass 0.900 kg connected to a spring. When set...

An oscillator consists of a block of mass 0.900 kg connected to a spring. When set into oscillation with amplitude 27.0 cm, it is observed to repeat its motion every 0.400 s. (a) Find the period. s (b) Find the frequency. hz (c) Find the angular frequency. rad/s (d) Find the spring constant. N/m (e) Find the maximum speed. m/s (f) Find the maximum force exerted on the block. N please show work and answer

Q1: Select all true statements. The KE of a simple harmonic oscillator is maximum at the...

Q1: Select all true statements. The KE of a simple harmonic oscillator is maximum at the maximum absolute displacements. The frequency of a simple harmonic oscillator is independent of its amplitude. A harmonic oscillator, the motion of which is reduced and brought to rest over time by friction, is an example of a damped harmonic oscillator. The period of an object moving in simple harmonic motion is the number of cycles that occur per second. Young’s Modulus depends on the...

4. A damped oscillator has a resonant frequency of 100 Hz, and a Q of 10....

4. A damped oscillator has a resonant frequency of 100 Hz, and a Q of 10. The oscillator is displaced by an amount 0.1 meter and let go. (a) Sketch its subsequent motion qualitatively on a plot showing amplitude (distance to the rest position, positive for one side, negative for the other) versus time. Be sure to label the axes in seconds and meters. (b) The same damped oscillator is driven with a strong sinusoidal drive of variable frequency. Sketch...

1)A heavy truck drives down a street, causing a streetlight to start oscillating. The amplitude of...

1)A heavy truck drives down a street, causing a streetlight to start oscillating. The amplitude of the oscillation is initially -0.188m, and it is 0.1644m 8.24s later -Calculate the damping constant of this oscillation. -Calculate the amplitude of the oscillation 9.47s after the truck passed the streetlight. 2)A laboratory mass of 0.667kg  is suspended from a vertical spring and set to oscillating. You measure its amplitude and obtain0.448m ; you measure the period and obtain 1.32s. (a) Calculate the force constant...

An oscillator consists of a block attached to a spring (k = 483 N/m). At some...

An oscillator consists of a block attached to a spring (k = 483 N/m). At some time t, the position (measured from the system's equilibrium location), velocity, and acceleration of the block are x = 0.0632 m, v = -18.4 m/s, and a = -105 m/s2. Calculate (a) the frequency of oscillation, (b) the mass of the block, and (c) the amplitude of the motion.

An oscillator consists of a block attached to a spring (k = 495 N/m). At some...

An oscillator consists of a block attached to a spring (k = 495 N/m). At some time t, the position (measured from the system's equilibrium location), velocity, and acceleration of the block are x = 0.0628 m, v = -17.7 m/s, and a = -124 m/s2. Calculate (a) the frequency of oscillation, (b) the mass of the block, and (c) the amplitude of the motion.