This means that if you double the temperature of an star, it will radiate 2 x 2 x 2 x 2 = 16 times as much energy per square unit of area, and also in total if its surface area doesn't change.
| Sun | 1 | 5,800 |
| Ori | 27,000 | 3,400 |
Something strange is happening here! The Sun has a higher surface temperature, so it must radiate more energy per unit surface area than Ori. In spite of this, Ori has a far greater luminosity than the Sun! There is only one way that Ori could radiate more total energy – it must have a larger total surface area.
| E | = | (4 ) | × | R T |
| L | = | (4 ) | × | R T |
The energy, E, emitted by a star (equivalent to the luminosity, L) is proportional to the square of the radius, R, and the fourth power of the temperature, T. We can express these quantities as a ratio between the properties of two stars:
| L | = | R | × | T |
| L | R | T |
- If star A is twice as hot as star B, but emits the same total amount of energy, is it larger or smaller? By how much?
- If star A is 625 times as luminous (emits 625 times as much energy) as star B, but the same size, is it hotter or colder? By how much?
- If the radius of a star quadrupled in size and the energy output stayed constant, would it get hotter or colder? By how much?
- If a white dwarf star had a temperature of 20,000K, would it be brighter or fainter than the Sun?
By making one of the two stars the Sun, we can express the properties of any star in solar units.
| L | = | R | × | T |
| L | R | T |
- If a star is twice as hot as the Sun, with solar luminosity, what is its radius in solar units?
- If a star is 625 times as luminous as the Sun, and the same size as the Sun, what is its temperature in solar units?
- If a star is four times as large as the Sun, with solar luminosity, what is its temperature in solar units?
- If a star has one-hundredth solar luminosity and is 5 times hotter than the Sun, what type of star is it?
- If a star is ten-thousand times brighter than the Sun and is the same temperature as the Sun, what type of star is it?
- What type of star is Ori?
What is the temperature of a star directly related to?
The effective temperature is directly related to the color of the star: the higher the temperature, the bluer the light emitted by the star. The effective temperature is one of the two parameters, with the stellar luminosity, used to build the classical HR diagram that permits astronomers to classify stars.
What factor affects the temperature of a star?
The surface temperature is determined by the luminosity and radius. The luminosity is governed by the central temperature. An increase in mass, increases the central temperature and greatly increases the luminosity. The radius also increases, but not by enough to compensate, so the surface temperature also rises.
What determines the temperature of a star?
A star's surface temperature can be determined from its spectrum. The Hertzsprung-Russell diagram sorts stars by luminosity and temperature. Most stars are on the main sequence of the Hertzsprung-Russell diagram.
What property of a star can most directly be used to determine its temperature?
Measuring the strength of the hydrogen absorption lines is usually the first step for determining a star's temperature. If the star is too hot or too cold, the hydrogen lines will be weak. To produce strong, dark hydrogen lines, the star's temperature must be within a certain range.