How to Determine Energy Transfer Type in a Star from Density and Radius?

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To determine the type of energy transfer in a star based on its density and radius, one must analyze the temperature gradient using the appropriate equations. The Schwarzschild criteria can help distinguish between convective and radiative transfer, but requires knowledge of the star's total mass and evolutionary state. While all stars exhibit both energy transfer types to some extent, often one is dominant. In many cases, exercises may not provide sufficient data, complicating the analysis. Understanding the relationship between density, radius, and temperature gradient is crucial for determining the energy transfer mechanism.
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Homework Statement



The statement is just this: For a given density p = p(r), being p==rho and r the radius of the star, how can I determinate whether the star has convective or radiative energy transfer?

Homework Equations



Equilibrium (1)
Continuity (2)
Ideal gas (3)
Schwarzschild criteria? (4)


The Attempt at a Solution



I calculate P(r) using (1) (and eventually (2) since p=p(r)). I write P=P(p) [remember p==rho] using (3). The problem is that I know two or three expressions for the temperature gradient, but they are valid only if the star is convective, radiative, etc. that is what I've been asked to decide.

Thanks
 
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All stars have some degree of convective and and radiative energy transfer. Often one of them is negligible. To find out, you need to know the total mass of the star, and generally its evolutionary state (i.e. age).
 
zhermes said:
All stars have some degree of convective and and radiative energy transfer. Often one of them is negligible. To find out, you need to know the total mass of the star, and generally its evolutionary state (i.e. age).

In most of the exercises that kind of data (numbers) are not provided. In one of them, it's given, for example, the density in terms of radius r, and with the only help of equations (1)-(3) I'm supossed to find out the temperature gradiente and, with it, the type of energy transfer in the star. Any clue? Thn
 
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