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Masses Combined in Series and in Parallel

Started by nilrehob, May 10, 2015, 03:56:44 PM

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nilrehob

May 10, 2015, 03:56:44 PM
I just wrote a short paper on the subject.

When masses are combined in the natural way as in m = m_1 + m_2 they have the same velocity and thus are combined in series. During an elastic collision with a spring the masses experience the same amount of force and thus are combined in parallel as in m = 1/(1/m_1 + 1/m_2) from the perspective of the spring.

You can find the paper here:
https://sites.google.com/site/nilrehob/home/documents

/Hob

telecom

#1
May 10, 2015, 10:26:56 PM
Quote from: nilrehob on May 10, 2015, 03:56:44 PM
I just wrote a short paper on the subject.

When masses are combined in the natural way as in m = m_1 + m_2 they have the same velocity and thus are combined in series. During an elastic collision with a spring the masses experience the same amount of force and thus are combined in parallel as in m = 1/(1/m_1 + 1/m_2) from the perspective of the spring.

You can find the paper here:
https://sites.google.com/site/nilrehob/home/documents

/Hob
so where exactly spring/inductance is located during the collision?

nilrehob

#2
May 11, 2015, 01:33:03 AM
Quote from: telecom on May 10, 2015, 10:26:56 PM
so where exactly spring/inductance is located during the collision?

Between the masses/capacitors. It doesnt have to be a spring present as long as the collision is elastic but the spring makes the comparison to the electrical circuit easier.

/Hob

telecom

#4
May 12, 2015, 11:20:56 AM
Does it mean that you can transfer all the impulse between two bodies using  spring as an inductance?
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