What is the period of oscillation?

AI Thread Summary
To determine the period of oscillation for a mass-spring system, first calculate the spring constant (k) using the force from a 361-gram mass that stretches the spring 64.3 cm, resulting in k = 5.50 N/m. Once k is known, apply the formula T = 2π√(m/k) with the mass of 649 grams converted to kilograms (0.649 kg). Substituting these values yields a period of oscillation T = 2.15 seconds. The discussion emphasizes understanding the relationship between mass, spring constant, and oscillation period in simple harmonic motion. This method provides a clear approach to solving similar SHM problems.
duhduhduh
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A mass of 361 grams is hung from the bottom of a vertical spring and the spring stretches 64.3 cm. The hanging mass is removed, and the spring is placed horizontally on a frictionless table. One end of the spring is held fixed and the other end is attached to a 649 gm mass. The 649 gm mass is then pulled to a distance of 64.3 cm and released from rest. What is the period of oscillation of this mass/spring system?

Just starting these types of SHM problems. How do I go about solving this?
 
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duhduhduh said:
A mass of 361 grams is hung from the bottom of a vertical spring and the spring stretches 64.3 cm. The hanging mass is removed, and the spring is placed horizontally on a frictionless table. One end of the spring is held fixed and the other end is attached to a 649 gm mass. The 649 gm mass is then pulled to a distance of 64.3 cm and released from rest. What is the period of oscillation of this mass/spring system?

Just starting these types of SHM problems. How do I go about solving this?

(Does this one belong in the homework forums?)

You have enough information here to calculate the spring constant of the spring; and once you know the spring constant you can calculate the period of oscillation on frictionless horizontal table for any given mass.
 
Sorry, and thanks for your help. How do I solve for the spring constant?
 
You know both the force applied to the spring from the hanging mass as well as the extension.
 
Ok, so I get k = 5.50 from F = kx

Then use T = 2pi*sqrt(m/k)

What is gm as a unit of mass?
 
Fairly sure it means gram.
 
This is really very simple, please read your text.
 
So by using T = 2pi * sqrt(m / k) where m = 0.649kg and k = 5.5, I get T = 2.15

Look good? Thanks so much for your help
 

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