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16.8 Forced Oscillations and ResonanceHow much energy must the shock absorbers of a $1200-\mathrm{kg}$ car dissipate in order to damp a bounce that initially has a a velocity of 0.800 $\mathrm{m} / \mathrm{s}$ at the equilibrium position? Assume the car returns to its original vertical position.

$E=384 \mathrm{J}$

Physics 101 Mechanics

Physics 103

Chapter 16

Oscillatory Motion and Waves

Periodic Motion

Wave Optics

Cornell University

Hope College

University of Sheffield

Lectures

02:51

In physics, wave optics is…

10:02

Interference is a phenomen…

03:07

How much energy must the …

02:27

A shock absorber is design…

01:22

(II) A 1200-kg car moving …

01:03

If a car has a suspension …

0:00

(1) The springs of a 1500 …

01:35

The springs of a 1700-kg c…

01:31

You're riding in a fr…

01:48

A compact car has a mass o…

02:03

Four passengers with combi…

05:04

01:57

(II) A $1200-\mathrm{kg}$ …

04:12

Four people, each with a m…

02:18

An automobile can be consi…

02:04

(II) A $1200 - \mathrm { k…

05:57

$\bullet$ $\bullet$ Four p…

03:28

A 950-kg car strikes a hug…

01:29

(II) A 1200 -kg car rollin…

01:32

A car's 30.0 -kg fron…

02:24

(I) The springs of a $1500…

01:07

An automobile suspension h…

here we can simply use the kinetic energy. And so the maximum kinetic energy would be equaling 2 1/2 times M multiplied by the maximum velocity squared, and this would be equal to 1/2 times the mass. 1200 kilograms multiplied by points 800 meters per second. Quantity squared. This is equaling 380 foot four jewels. This would be your final answer. This would be the shock, the amount of energy that the shock absorber has to dissipate. And so our final answer is 384 jewels. That is the end of the solution. Thank you for watching.

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In physics, wave optics is the study of the behavior of light, or other elec…

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(II) A 1200-kg car moving on a horizontal surface has speed $v =$ 85 km/h wh…

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The springs of a 1700-kg car compress 5.0 mm when its 66-kg driver gets into…

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