What is the Spring Constant and Angular Frequency of a Car's Suspension?

AI Thread Summary
The discussion centers on calculating the spring constant and angular frequency of a car's suspension system as it travels over a rough road. The car's weight, including passengers, is 1200 kg plus four 82 kg individuals, and it bounces with maximum amplitude at a speed of 15 km/h over corrugations spaced 4.0 m apart. Participants clarify that to find the angular frequency, one must first determine the frequency from the car's speed and the distance between bumps. The formula for angular frequency is provided as ω = 2πf, emphasizing the relationship between linear frequency and angular frequency. The conversation concludes with guidance on applying principles of simple harmonic motion to derive the spring constant.
RIT_Rich
Ok, here is the problem:

A 1200 kg car carrying four 82 kg people travels over a rough "washboard" dirt road with corrugations 4.0 m apart which causes the car to bounce on its spring suspension. The car bounces with maximum amplitude when its speed is 15 km/h. The car now stops, and the four people get out. By how much does the car body rise on its suspension owing to this decrease in weight?
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I know I'm supposed to find the spring constant of the suspension here and first I need to find the angular frequency...but how do I go about finding the angular frequency?

If anyone can help as soon as possible...thanks a lot
 
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ω = 2Πf

(f you can get from the speed and the space between the bumps.)

Does that help?
 
How do you get f from the speed and the bumps?

I must have a really bad book...but it tells me that to get the frequency I need the angular frequency.

My book says f= w/2pi...which gives you w right back.

Thanks for the help
 
ω is the angular frequency (i.e. radians per second)

f is the linear frequency: cycles per second, bumps per second, bumps per minute, bumps per hour...

You have kilometers per hour and bumps per meter...

Got it?

Then, use
ω = 2Πf
to get the angular frequency.

Then use what you know about simple harmonic motion to get the spring constant.
 
Thanks a lot.
 

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