Celsius, Kelvin, or Fahrenheit?
no mercury is only hot from the suns intense heat and solar radiation. the sun is a young star and burns at over 200k degrees f and has massive sun blasts that stretch 100 earths out into space resulting from hydrogen atoms running into each other at massive speeds
The vacuum in space only has one temperature: -273.15 degrees Celsius. The planets' temperature do vary, though.
Absolute zero is -273.15oC. The temperature in space is about 3 Celsius degrees above absolute zero, or -270.15oC. The background radiation temperature is about 3 degrees Kevin. The local temperature would depend on how close you are to a heat source such as a sun
When the air is clear, heat radiates from the ground into space, with a temperature difference of about 290 degrees C. ("Space" has a temperature of about -270 degrees C, or 4 degrees Kelvin.) When there are clouds, the ground radiates heat to the clouds, with a temperature difference of a few dozen degrees C.
less than -400 degrees Fahrenheit
In the emptiness of deep space the average temperature in the universe is approximately three degrees above absolute zero(the temperature at which molecules themselves stop moving). In other words, it's almost -270 degrees Celsius, or -455 Fahrenheit.On the other hand, an object orbiting a star like the Sun can reach extreme temperatures above 260 degrees Celsius (500 degrees Fahrenheit).
I read that the Space Station stays at about 75 degrees Fahrenheit
The average temperature aboard the ISS is about 75 degrees Fahrenheit (23.8 Celsius) ... basically room temperature.
Not really. A "meteor" is the streak of light created as a space rock falls into the atmosphere and heats up to incandescence due to friction and compressive heating. The meteor is the light, not the rock. The temperature of the space rock would vary from pretty close to absolute zero at the center (depending on where the rock was in space before it started heading toward the Earth) and thousands of degrees on the surface,
If you're talking about actual space, as in vacuum, the only temperature is about -273.5 degrees Celsius, as no atoms move in space. On planets and stars, temperature can vary dramatically, from the temperature of vacuum to the core of the hottest star (could be 40 million Celsius).
they grow in a temperature similar to the temperature of the space under your arm. approx. 97.8 degrees Fahrenheit.
The temperature of outer space is measured in Degrees Kelvin. The Kelvin scale starts at what is called Absolute Zero, and is based on the theory of a "Perfect Vaccuum" (a vaccuum in which no matter exists whatsoever). Space, however, is not a perfect vaccuum. There are various gasses and other particles floating around in it, and for that reason its temperature cannot possibly be Absolute Zero. It would depend on exactly how much matter is present in any given region of space as to that regions temperature in Degrees Kelvin. It is scientifically acceptable to determine the temperature of space to be "fractionally above Absolute Zero", as its (space, as a whole) temperature varies from region to region. How the temperature in space is physically measured is another question, and one I cannot answer.