at atm carbion is the amount of melt. 38000,k 7600000-
At 1 ATM carbon in graphite form melts at 3800K, 3527 °C, 6381 °F
Carbon is a solid at room temperature.
2075 degrees Fahrenheit
As soda cans are made of aluminium, they will melt at 660.37 C
ice melts faster in carbon because it gets heated more faster and no carbon takes a while for it to melt unless the thing is really hot
it is a scientific fact that your hand temperature is also the same temperature as your body (37 degrees Celsius) because if you put a piece of chocolate on your body it will melt and if u put it on your hand it will also melt
The melting points of elements 104 to 118 are not firmly established but they are all solid at room temperature and so it is assumed that they melt at some temperature.Helium and carbon do not melt. Helium is not radioactive but carbon does have isotopes: C-13 and C-14 which are radioactive.
It does melt.
First, (at room temperature) doesn't mean anything, because carbon will not melt at room temperature. There are different data for melting point found: 3773 K & 3820 K are two that were found. But look at the phase diagram in the Wikipedia article. The melting point will depend on the pressure, and the form of carbon (diamond, graphite, or amorphous).
Yes you can melt it. But you want a high temperature.
i believe its thesame as your body temperature that's why it melt in your mouth and pocket
well it freezes at 0c or 32f so it will melt if subjected to a higher temperature
ice melt in the room temperature
You don't. The temperature to cast any steels would melt any fiber glass fiber. Straight Carbon wouldn't melt but a steel with extra carbon in it may be stronger but it would be be more brittle. You could get the same effect from heat treating. Steel doesn't have extra carbon in it for a reason. Especially stainless steels
Increasing the melt temperature the material can be transformed in a gas.
The surrounding temperature increases the temperature of the ice block causing it to melt.
Skin does melt at the temperature of 200 degrease C.
Diamonds do not melt, but they can burn. Diamonds are formed at extremely high pressure and temperatures, but will burn in the presence of oxygen, like an oxygen torch at 1472 degrees Fahrenheit.