Plasma can burn at temperatures exceeding 10,000 degrees Fahrenheit. The high temperature of plasma has significant implications, such as its ability to generate intense heat for industrial processes, fusion energy production, and space propulsion. However, controlling and containing such high temperatures poses challenges in terms of material durability and energy efficiency.
The optimal plasma cutter temperature for cutting through thick metal sheets efficiently is typically between 25,000 and 30,000 degrees Fahrenheit. This high temperature allows the plasma cutter to quickly and cleanly cut through the metal with precision.
High temperature and high pressure are necessary for fusion reactions to take place in a star. The high temperature is needed to overcome the electrostatic repulsion between positively charged atomic nuclei, while the high pressure is needed to confine the high temperature plasma.
Plasma can reach temperatures of millions of degrees Celsius. At such extreme temperatures, the implications include the ability to generate vast amounts of energy through nuclear fusion, as well as the potential for creating new materials and understanding the behavior of matter at high energies. However, controlling and harnessing such extreme temperatures poses significant technical challenges.
It can vary; a plasma can have a temperature of a few thousand degrees, or millions, or even billions of degrees - in each case, the amount of energy will be different. Of course, the amount of energy will also depend on the amount of plasma we are talking about.
Plasma cutters work by shooting a high-pressure gas through a hose and arcing electricity through the gas to create plasma. Basically, plasma cutters used high temperature gas and electricity to cut through metals.
It doesn't, a flame is a plasma, this can occur at temperatures as low as about 600°C.
Natural plasma exist only at very high temperatures, or low temperature vacuums.
No, it's a very high temperature gas
promotes fluidity at high temperature
yes they will burn and if u are going to attempt that i high do not recommend in
promotes fluidity at high temperature
Plasma
Paper clips will burn given a high enough temperature.
The metal will melt if you do that.
If you are talking about high temperature plasma (with the plasma being a mass of ionized atoms), then a magnetic field would the thing that can effectively push or hold plasma, presuming that you want the plasma to remain a plasma. This means that you would need electromagnets to generate and manipulate magnetic fields. In nature, these fields can be generated by the Earth, Sun, Jupiter, etc. In technology, a tokamak is used to hold high temperature plasma as efforts are made to induce fusion.
Yes, graphite can burn and produce flames when exposed to a high enough temperature.
The temperature in both cases will depend on the exact details of the setup.