Oscillations of a mass on a spring.

AI Thread Summary
The discussion centers on the relationship between the mass attached to a spring and its oscillation period. When an additional mass M is added to a mass m, the period increases to 3T, leading to the equation T=2pi(m/k)^(1/2). Participants clarify that the total mass affecting the period should be M + m, which results in the conclusion that M equals 8m, not 9m. The confusion arises from the mathematical derivation, emphasizing the importance of correctly accounting for the total mass. The final consensus confirms that M is indeed 8m.
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A mass m suspended from a spring of constant k has a period T. If a mass M is added, the period becomes 3T. Find M in terms of m.T=2pi(m/k)^(1/2)
I know that the period varies as the square root of the mass so the mass M should be 9 times that of m. The answer is M=8m. I don't know why it is 8 instead of 9. Any help would be appreciated.

Thanks
 
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Your equation is a bit wrong (typo, maybe?), T=2pi(m/k)^(1/2). Have you worked it out mathematically? You will get M=8m. Remember that the total mass is M + m for when the period is 3T. Try to work it out.
 
Nice. Inserting M+m then solving works. Thank you.
 

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