The hot glowing surfaces of stars emit energy in the form of electromagnetic rad

Question

The hot glowing surfaces of stars emit energy in the form of electromagnetic radiation. It is a good approximation to assume that the emissivity is equal to 1 for these surfaces.
PART A:Find the radius of the star Rigel, the bright blue star in the constellation Orion that radiates energy at a rate of 2.7*10^32 W and has a surface temperature of 11,000 K. Assume that the star is spherical.
Use5.67*10^-8 W/m^2*K^4 for the Stefan-Boltzmann constant and express your answer numerically in meters to two significant figures.Answer R=___________ m

PART B:
Find the radius of the star Procyon B, which radiates energy at a rate of 2.1*10^23 W and has a surface temperature of 10,000 K . Assume that the star is spherical.
Use 5.67*10^-8 W/m^2*K^4 for the Stefan-Boltzmann constant and express your answer numerically in meters to two significant figures.Answer R=_____________m

Explanation / Answer

Stefan-Boltzmann law states that the energy flux by radiation is proportional to the forth power of the temperature: q = e · s · T^4 The total energy flux at a spherical surface of Radius R is Q = q·p·R² = e·s·T^4·p·R² Hence the radius is R = v( Q / (e·s·T^4·p) ) = v( 2.7x10+32 W / (1 · 5.67x10-8W/m²K^4 · (1100K)^4 · p) ) = 3.22x10+13 m

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