Re: Gravitational mass and inertial mass

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Sujet : Re: Gravitational mass and inertial mass
De : fortunati.luigi (at) *nospam* gmail.com (Luigi Fortunati)
Groupes : sci.physics.research
Date : 19. Apr 2024, 11:52:59
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <uvtf6r$2u771$2@dont-email.me>
References : 1 2
Il 03/04/2024 08:58, Luigi Fortunati ha scritto:
Luigi Fortunati il 22/02/2024 02:49:45 ha scritto:
In my animation https://www.geogebra.org/m/kqjzk5gt there are the two bodies A and B (of equal mass m) connected via an inextensible wire, ideally massless.
[[Mod. note -- This system is known as "Atwood's machine"; see
   https://en.wikipedia.org/wiki/Atwood_machine
for more information.
-- jt]]
 
My animation is not Atwood_machine because only body A moves vertically, while body B slides horizontally on a frictionless plane.
 
And what is the ratio between the blue force FA=mg (gravitational + inertial) and the red force FB (inertial only)?
 
It turns out to me that FB=FA(mB/(mA+mB))
 
In our case where mA=mB=m, the force FB is FB=1/2 of FA.

In my animation, the string AB receives the blue force FA=mg from body A
and transmits it to point B of body B.

However, the black force -FB that the string transmits to body B is only
half the force it received at point A.

What happened to the force that was lost? Where is the error in the
animation or in the reasoning I did?

Luigi Fortunati


Date Sujet#  Auteur
3 Apr 24 * Re: Gravitational mass and inertial mass3Luigi Fortunati
19 Apr 24 `* Re: Gravitational mass and inertial mass2Luigi Fortunati
4 May 24  `- Re: Gravitational mass and inertial mass1Luigi Fortunati

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