How to calculate the size of a star with just temperature

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SUMMARY

The size of a star can be calculated using its temperature through the application of the Stefan-Boltzmann Law and Wien's Displacement Law. The Stefan-Boltzmann Law allows for the estimation of luminosity, which is essential for determining the star's radius. By comparing the energy radiated per second to the temperature, one can infer the star's size, especially when utilizing H-R diagrams. For binary stars, eclipse methods can provide additional size estimates based on the dynamics of their orbital motion.

PREREQUISITES
  • Understanding of the Stefan-Boltzmann Law
  • Familiarity with Wien's Displacement Law
  • Knowledge of H-R diagrams
  • Basic concepts of binary star systems and their dynamics
NEXT STEPS
  • Study the application of the Stefan-Boltzmann Law in astrophysics
  • Learn how to construct and interpret H-R diagrams
  • Research methods for estimating luminosity in stars
  • Explore techniques for measuring binary star sizes using eclipse methods
USEFUL FOR

Astronomy students, astrophysicists, and anyone interested in stellar dynamics and size estimation techniques.

timnswede
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Homework Statement


This isn't a specific problem, but my professor told us that we can calculate the size of a star if we know the temperature of it.

Homework Equations


Stefan-Boltzmann Law, Wien's displacement law.

The Attempt at a Solution


With the temperature i can also get the intensity with Stefan-Boltzmann law and intensity is power over area and area is what i want. But I don't see how I am supposed to be able to calculate area without also knowing the power. My professor also mentioned wavelength which I know I can calculate with Wien's displacement law if i know the temperature, but I can't figure out how that will help me.
 
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timnswede said:
With the temperature i can also get the intensity with Stefan-Boltzmann law and intensity is power over area and area is what i want. But I don't see how I am supposed to be able to calculate area without also knowing the power. My professor also mentioned wavelength which I know I can calculate with Wien's displacement law if i know the temperature, but I can't figure out how that will help me.

with the temperature of a star-T known
the amount of radiation emitted can be estimated using the famous Stefan- Boltzmann law.

therefore if one can estimate the Luminosity ,there are methods using H-R diagrams that its size can be estimated..
Energy radiated per sec per unit area is equivalent to stefan's constant x T^4 and
if the star has radius R
then one can relate energy radiated per sec to temp..
and if comparison is made with other steller radiators one can have some idea about its size
 
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So without knowing luminosity (which is just power?) then the area can't be found?
 
timnswede said:
So without knowing luminosity (which is just power?) then the area can't be found?

its difficult as some size effects must be there to be observed -apart from temperature!
at least for single stars.

for binary stars some eclipse method gives an estimate of size -
as binary stars move about its center of mass and can eclipse each other and during eclipse the emitted spectral line Doppler shift can be related to their speed
and the time of eclipse can be used to estimate their size.
 

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