Calculate Rigel's Luminosity with Stefan-Boltzmann Law

How can we calculate Rigel's luminosity using the Stefan-Boltzmann law?

With Rigel being a blue supergiant with specific surface temperature and radius data, how can we determine its luminosity with this information in mind?

Calculating Rigel's Luminosity:

First, we need to convert the radius of Rigel to meters using the given information about it being 80 times the radius of the Sun.

Then, we can apply the Stefan-Boltzmann law formula (L=4πR²σT⁴) to find the luminosity of Rigel by plugging in the values of its radius and temperature.

Lastly, simplify and calculate the equation to determine Rigel's luminosity in watts.

Understanding Rigel's Luminosity Calculation:

When calculating the luminosity of Rigel, we utilize the Stefan-Boltzmann law formula which takes into account the surface area of the star and its temperature to determine the total amount of energy emitted per second.

By following the step-by-step process outlined in the provided data, we can find that Rigel's luminosity is approximately 4.03 x 10^30 watts, showcasing the immense energy output of this blue supergiant.

This calculation not only demonstrates the scientific method of determining luminosity based on specific stellar characteristics but also highlights the significance of understanding the properties of celestial bodies in the realm of astrophysics.