Betelgeuse ("Beetlejuice") has a surface temperature of around 3,500 Kelvin. (3,200º Celsius or 5,800º Fahrenheit)
No, Rigel is hotter than Betelgeuse. Rigel is a blue supergiant star with a surface temperature of around 12,000 Kelvin, while Betelgeuse is a red supergiant with a surface temperature of around 3,500 Kelvin.
Vega is generally hotter than Betelgeuse. Vega has a surface temperature of about 9,600 Kelvin, while Betelgeuse, a red supergiant, has a much cooler surface temperature of approximately 3,500 Kelvin. This difference in temperature contributes to Vega's bluish-white color, whereas Betelgeuse appears reddish due to its lower temperature.
Yeah, the Suns radiant pressure is more increased then Betelgeuse.
No. While Betelgeuse is larger and brighter than the sun, it actually has a lower surface temperature.
Betelgeuse, a red supergiant star, has an effective surface temperature of around 3,500 Kelvin, while Rigel, a blue supergiant, has a much higher surface temperature of about 11,000 Kelvin. This significant difference in temperature is due to their stages in stellar evolution and their respective spectral classifications, with Betelgeuse being cooler and redder, and Rigel being hotter and bluer. Consequently, Rigel emits more energy than Betelgeuse, influencing their brightness and appearance in the night sky.
Betelgeuse ("Beetlejuice") has a surface temperature of around 3,500 Kelvin. (3,200º Celsius or 5,800º Fahrenheit)
No, Rigel is hotter than Betelgeuse. Rigel is a blue supergiant star with a surface temperature of around 12,000 Kelvin, while Betelgeuse is a red supergiant with a surface temperature of around 3,500 Kelvin.
Yeah, the Suns radiant pressure is more increased then Betelgeuse.
No. While Betelgeuse is larger and brighter than the sun, it actually has a lower surface temperature.
Betelgeuse is located in the Orion constellation and is a red star. Red stars are generally the coolest of stars.
You can tell if Rigel or Betelgeuse is hotter based on their color. Rigel appears blue-white, indicating a hotter temperature, while Betelgeuse appears orange-red, suggesting a cooler temperature. Additionally, the spectral class of Rigel (B8Ia) is hotter than Betelgeuse's spectral class (M1-2Ia).
The red color of Betelgeuse is due to its relatively low surface temperature compared to other stars, causing it to emit more red and orange light. This cooler temperature indicates that Betelgeuse is nearing the end of its life cycle and will eventually explode as a supernova.
Sirius and Betelgeuse are both bright stars in the night sky, but they differ in size, color, and temperature. Sirius is a white star, while Betelgeuse is a red supergiant. Betelgeuse is also much larger and cooler than Sirius.
No, the surface temperature of Betelgeuse is colder than the temperature of a white dwarf, the white dwarf is the hot core of a dead star. Also, red stars are always colder than white stars.
Betelgeuse is a red supergiant star located in the constellation Orion. It is a very luminous and relatively cool star, with a surface temperature of around 3,500 Kelvin.
Betelgeuse is hotter than Vega. Betelgeuse is a red supergiant star with a surface temperature of around 3,500 degrees Celsius, while Vega is a blue-white star with a surface temperature of around 9,600 degrees Celsius.
The color of the supergiant star Betelgeuse reveals its stage in its life cycle. Betelgeuse appears red because it is a cool, aging star that is at the latter stages of its life, in the red supergiant phase.