Degrees(C) = (Degrees(F)-32) * 5/9 Degrees(C) = (99.5-32) * 5/9 = 37.5 degrees(C) Also, Degrees(F) = Degrees(C) * 9/5 +32
105 degrees Celsius = 221 degrees Fahrenheit. [°F] = [°C] × 9⁄5 + 32
25 degrees C = 77 degrees F
61 degrees Celsius.
37 C.
Basalt, an igneous rock, has a melting point of between 1100 and 1200 degrees C.
185 degrees c
Its a rare transition metal and its melting point is 2334 degrees C and its boiling point is 4150 degrees C
I believe it is at 1536 degrees c
By itself, no. But if it was in a gun, it would have to be a metal/alloy that could withstand it, as plasma can only be used as a weapon when superheated. Plasma can be over 9000 degrees, so at this point, no element that humanity knows of can withstand this.
Iron can withstand 400 degrees Celsius, it will soften some but no major recrystallization will occur. (the melting point of iron is about 1580 degrees C, the Curie temperature is 1043).
It is the amount of fire a sheet metal can withstand.
Yes. And the question is ... The sphere is certainly not made of a common metal. It could be Europium or an alloy or common elements.
Gaseous state. The boiling point of radon is -71 degrees C. So at 20 degrees C, it is above the boiling point and is a gas at this temperature.
That depends on the metal. Mercury is liquid at room temperature (melting point -39° C) Tin has a melting point of a few hundred degrees (melting point 232° C) Titanium melts at over a thousand degrees (melting point - 1668° C) Tungsten with the highest melting point of the metal elements melts at 3422 °C
space suits can withstand minus 250 to 250 degrees fahrenheit
Yes. The hottest lava on Earth is about 2100 degrees Fahrenheit. Plenty of metal have melting points higher than this. Tungsten, with the highest melting point of any metal, does not melt until nearly 6200 degrees Fahrenheit.