The Fourier rate equation of heat conduction states: <mrow class="MJX-TeXAtom-ORD"> <mover

Angelique Horne

Angelique Horne

Answered question

2022-05-20

The Fourier rate equation of heat conduction states:
q = k T
But I'm wondering if this is valid in every frame of reference, because the heat flux q does obviously change when the area under consideration is moving. The equation is often applied to moving fluids, and because there is no objective way to determine a non-moving frame of reference in a moving substance, I guess that the equation is valid for every inertial frame of reference, but I just wanted to be sure.

Answer & Explanation

bamenyab4mxn

bamenyab4mxn

Beginner2022-05-21Added 16 answers

Temperature is an scalar function in this case. It remains invariant at every point. The heat flow forms a vector field. The values and components do transform under change of under change of co-ordinate system:
q a = k a T
In new system of co-ordinates ( x ) :
q a = k a T = k ( x a / x b ) b T = k ( x a / x b ) q b
Now, if these are co-ordinates in your frame of reference. Sitting in your frame you might see some guy moving. You may decide to model how this guy views the heat flow.
To do this first look at how this 'guy'/'thing' is moving in your frame. Obviously he will move with a velocity as a function solely of time or constant (otherwise we would be discussing a whole family of observers). Let the components of his position in your frame be ra in your frame, which is function only of time or a constant. Now assuming he uses 3D Cartesian co-ordinates his frame co-ordinates will be:
x a = x a r a
So, x a = x a r a
as ra is a function of time, q a = q a in this case.
However if your observer decides to use some other co-ordinate system (like circular) then naturally the components of heat flow will be different.

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