Re: Inertia and third principle

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Sujet : Re: Inertia and third principle
De : fortunati.luigi (at) *nospam* gmail.com (Luigi Fortunati)
Groupes : sci.physics.research
Date : 13. Aug 2024, 08:18:34
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <v9d8db$3bi06$1@dont-email.me>
References : 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Force compresses and accelerates.

Compression depends on the reaction because there can be no compression if there is no reaction.

Instead, the acceleration depends precisely on the lack of the reaction that makes the force "net", i.e. not counteracted by an opposite force (it is precisely the net force F=ma of the 2nd law).

The force, therefore, is divided into force that compresses and force that accelerates (which is the excess, i.e. what remains of the total force diminished by the reaction).

If I push against the wall I only generate compression because there is no excess of the action over the reaction.

If I push a cart, with part of my force I generate compression (at the point of contact against the reaction of the cart) and with the remaining part I generate acceleration of the cart (without reaction).

At instant 3 of my animation https://www.geogebra.org/m/qterew9m the impulsive force of body A against body B (+9) and that of body B against body A (-9) generate compression and no acceleration.

At instant 5, the force +15 of body A generates an opposite reaction -13.75 of body B which compresses the two bodies (+13.75 and -13.75) and with the remaining part +2.25 (+15-13.75) accelerates body B , without reaction.

At the end of the collision, the +6 sum of the momentum of body A (+3.75) and body B (+2.25) is perfectly equal to the total momentum before the +6 collision: the conservation of momentum hi is safe.

But the total +15 impulsive force exerted by body A on body B is not at all equal to the -13.75 impulsive reaction force of body B on body A.

Therefore, the equality of only the opposite compressive forces (+13.75 and -13.75) is true and is correct but the equality of all the forces exchanged between body A and body B is not true (+15 and -13.75) .

Luigi Fortunati

Date Sujet#  Auteur
22 Jun 24 * Inertia and third principle20Luigi Fortunati
24 Jun 24 `* Re: Inertia and third principle19Luigi Fortunati
29 Jun 24  `* Re: Inertia and third principle18Luigi Fortunati
6 Jul 24   `* Re: Inertia and third principle17Luigi Fortunati
9 Jul 24    `* Re: Inertia and third principle16Luigi Fortunati
15 Jul 24     `* Re: Inertia and third principle15Luigi Fortunati
22 Jul 24      `* Re: Inertia and third principle14Luigi Fortunati
31 Jul 24       `* Re: Inertia and third principle13Luigi Fortunati
3 Aug 24        `* Re: Inertia and third principle12Luigi Fortunati
4 Aug 24         `* Re: Inertia and third principle11Mikko
6 Aug 24          `* Re: Inertia and third principle10Luigi Fortunati
8 Aug 24           `* Re: Inertia and third principle9Luigi Fortunati
8 Aug 24            +- Re: Inertia and third principle1Luigi Fortunati
8 Aug 24            `* Re: Inertia and third principle7Mikko
8 Aug 24             `* Re: Inertia and third principle6Luigi Fortunati
13 Aug 24              `* Re: Inertia and third principle5Luigi Fortunati
13 Aug 24               `* Re: Inertia and third principle4Luigi Fortunati
15 Aug 24                `* Re: Inertia and third principle3Mikko
23 Aug 24                 `* Re: Inertia and third principle2Luigi Fortunati
24 Aug 24                  `- Re: Inertia and third principle1Mikko

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