So in terms of of color red is cool, yellow is medium, blue-violet is hot.
The relationship is that the color is an indication of the star's surface temperature. For example, red stars are cooler, while blue stars are hotter. You can find more details in the Wikipedia article "Stellar classification".
The color of a star is closely related to its temperature. Cooler stars appear reddish in color, while hotter stars appear blue. This is due to the relationship between temperature and the peak wavelength of light emitted by the star.
The color of a star is determined by its temperature, with hotter stars appearing blue and cooler stars appearing red. This is due to the relationship between temperature and the peak wavelength of light emitted, known as Wien's Law. It is easier to observe a star's color than its temperature directly, making color a useful indicator for astronomers.
The sun is also a star.
The color of a star is related to its temperature - hotter stars appear blue or white, while cooler stars appear red. This is because the temperature of a star affects the distribution of light it emits, with hotter stars emitting more blue light and cooler stars emitting more red light. The color of a star can therefore be used to estimate its temperature.
The relationship is that the color is an indication of the star's surface temperature. For example, red stars are cooler, while blue stars are hotter. You can find more details in the Wikipedia article "Stellar classification".
The color of a star is closely related to its temperature. Cooler stars appear reddish in color, while hotter stars appear blue. This is due to the relationship between temperature and the peak wavelength of light emitted by the star.
The color of a star is determined by its temperature, with hotter stars appearing blue and cooler stars appearing red. This is due to the relationship between temperature and the peak wavelength of light emitted, known as Wien's Law. It is easier to observe a star's color than its temperature directly, making color a useful indicator for astronomers.
The sun is also a star.
The Hertzsprung-Russel diagram shows brightness versus color (the color reflects the star's temperature).
Hertzsprung and Russell.
well it depends on how fat you are.
Hertzsprung and Russell.
well it depends on how fat you are.
The color of a star is related with the wavelength of the light observed. Wien's Law states that: Peak Wavelength x Surface Temperature = 2.898x10-3 Peak Wavelength is the wavelength of the highest intensity light coming from a star.
The color of a star is related to its temperature - hotter stars appear blue or white, while cooler stars appear red. This is because the temperature of a star affects the distribution of light it emits, with hotter stars emitting more blue light and cooler stars emitting more red light. The color of a star can therefore be used to estimate its temperature.
The temperature of a star can be determined from its color. Stars with cooler temperatures appear red, while stars with hotter temperatures appear blue. This color-temperature relationship is known as the Wien's Law.