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Author Topic: Masses Combined in Series and in Parallel  (Read 6858 times)

nilrehob

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Masses Combined in Series and in Parallel
« on: May 10, 2015, 09:56:44 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

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Re: Masses Combined in Series and in Parallel
« Reply #1 on: May 11, 2015, 04:26:56 AM »
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

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Re: Masses Combined in Series and in Parallel
« Reply #2 on: May 11, 2015, 07:33:03 AM »
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

nilrehob

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Re: Masses Combined in Series and in Parallel
« Reply #3 on: May 11, 2015, 09:14:17 AM »

telecom

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Re: Masses Combined in Series and in Parallel
« Reply #4 on: May 12, 2015, 05:20:56 PM »
Does it mean that you can transfer all the impulse between two bodies using  spring as an inductance?
« Last Edit: May 12, 2015, 07:53:43 PM by telecom »

nilrehob

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Re: Masses Combined in Series and in Parallel
« Reply #5 on: May 12, 2015, 05:39:55 PM »
Does it mean that you can transfer all the impulse between two bodies using  spring as inductance?

By impulse you mean momentum or energy?
See also my second paper called "Increasing Momentum or Charge".

/Hob

telecom

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Re: Masses Combined in Series and in Parallel
« Reply #6 on: May 14, 2015, 02:26:25 PM »
No, I meant impulse of the momentum according to Newton, M x V

nilrehob

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Re: Masses Combined in Series and in Parallel
« Reply #7 on: May 14, 2015, 04:45:12 PM »
No, I meant impulse of the momentum according to Newton, M x V

You can do better than that, by repeating impulses you can increase momentum, see my other paper at:
http://overunity.com/15763/increasing-momentum-or-charge/

/Hob