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Keys to Applicability

Can be applied to any system for which the change in mechanical energy can be attributed to work done by [non conservative forces] (as opposed to processes like heat transfer, radiative losses, etc.). The non-conservative forces can be external forces exerted on the system or internal forces resulting from the interactions between the elements inside the system. It is specially useful for systems where the non-conservative work is zero, in which case the mechanical energy of the system is constant.

Description

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[Model Hierarchy]

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根页面Model Hierarchy在空间Modeling Applied to Problem Solving中没有找到。

Page Contents

Assumed Knowledge

Prior Models

Vocabulary

Model Specification

System Structure

Constituents:  One or more point particles or rigid bodies. Technically, the system must be defined in such a way as to contain all objects that participate in any non-negligible conservative interactions that are present.

For example, for systems subject to earth's gravity, the earth should technically be included in the system, though it is usually sufficient to treat it as a rigid body that is at rest and has infinite mass. If this approximation is made, the earth will have zero kinetic energy (it will not change its velocity, since it has infinite mass).


Interactions:  All forces that do [non-conservative] work on the system must be considered, including internal forces that perform such work. Conservative forces that are present should have their interaction represented by a potential energy rather than by work.


Descriptors

[Object Variables]:  None.

Object masses and moment of inertia can technically change in this model, so they are state variables.

[State Variables]:  Mass (mj) and possibly moment of inertia (Ij) for each object plus linear (vj) and possibly rotational (ωj) speeds for each object, or alternatively, the kinetic energy (Kj) may be specified directly.

[Interaction Variables]:  External and internal non conservative forces, FNC,ext and FNC,int) or, alternately, the work done by the external and internal non conservative forces.

Model Equations

Laws of Interaction

Here should go the possible type of forces, friction, tension, etcs

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Laws of Change

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\begin

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$E_

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= E_

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+ W_

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^

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$ \end


where WNCi,f is the work done by the all the non-conservative forces on the system between the initial state defined by Ei and the final state defined by Ef and is given by

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\begin

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$ W_

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^

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= \int_

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^

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\sum \vec

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^

. d\vec

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$ \end

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RELATE wiki by David E. Pritchard is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License.


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