Degrees what?
0K -273oC-273 degrees COK
anywhere between 16-30 degrees Celsius
A solid surface, if there is one, would be contained within Jupiter's liquid metallic hydrogen core. As LMH is super conducting fluid there would be no temperature gradient, so the answer to both of your questions would be roughly 24 000 degrees, centigrade.
It will be a class "G" star with a conventional colour of yellow with an apparent colour of yellowish-white.
Always figure a drop of 2 degrees C per 1K feet in rise as a standard. So if the ground is near sea level, 30K feet would be 60C below ground temp. It varies somewhat, but that's the rule of thumb.
The Celsius temperature of 32 degrees Fahrenheit would be 0 degrees.
30% of 30000= 30% * 30000= 0.30 * 30000= 9000
It would equal 0 degrees Celsius.
No, a coastal city at 30 or 40 degrees north would not have a warmer temperature. But, it would have a moderate temperature.
You would have 30000 after the tax amount.
Mach no. is dependant on ambient air temp which is associated with a given altitude. As one ascends the temp drops so does the mach no. Eg. In a standard atmosphere (ISA - international std atmosphere) sea level temp is 15 degrees C or 59 degrees F. Temp decreases at 2 degrees celcius per 1000' therefore for example, in a standard atmosphere the temp at say 30000' would be: 15C at 0' -45C at 30000' Plug that into the equation to find the Local Speed of Sound (LSS) which is: LSS = 38.945 (square root of)/ Outside air temp + Absolute temp being 273A or 273K LSS = 38.945 x 228 LSS = 588 kts at 30000' So if one is doing 480knots at 30000' on a standard, day they are doing 480/588 = Mach0.82
The temperature of 63 degrees Celsius would be approximately 145.4 degrees Fahrenheit.
That would be 0 degrees. or freezing.
Zero degrees Celsius.
If the temperature is 44F and the temperature drops 20 degrees, the temperature would be 24. Subtract the temperature drop from the starting temperature.
220
No, it would not.