Shaula, a binary star system located in the constellation Scorpius, has a surface temperature of approximately 20,000 Kelvin for its primary star, which is a B-type main-sequence star. This high temperature gives Shaula a blue-white hue, typical of hot stars. The secondary component of the system is cooler, with a surface temperature around 5,000 Kelvin. Together, they create a striking visual in the night sky.
Black dwarfs have the lowest surface temperature.
yes. depends on the temperature of the liquid
The surface temperature of Omega varies slightly. On average, the maximum surface temperature is 760 degrees Celsius, which converts to 1400 degrees Fahrenheit.
The planet with an average surface temperature of 14.6°C is Earth.
Its surface temperature is 4950 K.
Shaula, also known as Lambda Scorpii, is a blue-white giant star with a surface temperature of approximately 24,000 Kelvin. Its color is predominantly blue, which is characteristic of hotter stars. As a member of the Scorpius constellation, Shaula is one of the brightest stars in the night sky.
23,000 degrees
Shaula Vega was born in Mexico City, in Distrito Federal, Mexico.
Shaula is not a single star, but actually a trinary system (three stars locked in orbit with each other). The primary star of this trinary is a blue sub-giant.
It is the same as Lambda Scorpii.
Oh, dude, Shaula is a blue giant star located in the Scorpius constellation. It's like super hot and massive, burning bright with a blue-white color. So, yeah, Shaula is definitely a star that stands out in the cosmic neighborhood.
Surface temperature? Saturn probably doesn't HAVE a "surface".
About 7900 degrees Celsius, surface temperature.
The temperature of the surface of the earth . How warm the earth can get . Xx
surface tension decreases with the increase of temperature
As the temperature rises, surface tension decreases.
Shaula, also known as Lambda Scorpii, is located approximately 700 light-years away from Earth. It is a binary star system in the constellation Scorpius and is known for its bright appearance in the night sky. The distance of 700 light-years means that the light we see from Shaula today actually left the star around the time of the early Middle Ages on Earth.