SHC of copper = 386 j-kg-k
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So: 386 * 0.75 * 200 = 57,900 joules (57.9 kj)
Energy gap in a superconductor is not a constant but depends on temperature. Energy gap in a semiconductor is a fixed quantity which does not depend on temperature. The excited quasiparticles or cooper pairs are produced two at a time hence the gap is 2Delta0. In a semiconductor the gap is the energy needed to excite 1 electron into the conduction band. The ground state in a superconductor is made of superconducting cooper pairs , above the gap the electrons are unpaired , the cooper pairs have lower energy. Conduction takes place in the lower ground state in Superconductors , where in semiconductors the electrons conduct from the conduction band. In a superconductor the gap is tied to the fermi level , while in a semiconductor it is fixed to the lattice in reciprocal space.
Heat energy is "energy" and temperature is not "energy".
It is a direct relationship. When temperature goes up, energy goes up. When temperature goes does, energy goes down.
it is hot temperature but when thermal energy leaves the temperature is cool
Thermal energy relies on temperature because it uses the heat to produce energy.
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Temperature is thermodynamic energy.
Energy gap in a superconductor is not a constant but depends on temperature. Energy gap in a semiconductor is a fixed quantity which does not depend on temperature. The excited quasiparticles or cooper pairs are produced two at a time hence the gap is 2Delta0. In a semiconductor the gap is the energy needed to excite 1 electron into the conduction band. The ground state in a superconductor is made of superconducting cooper pairs , above the gap the electrons are unpaired , the cooper pairs have lower energy. Conduction takes place in the lower ground state in Superconductors , where in semiconductors the electrons conduct from the conduction band. In a superconductor the gap is tied to the fermi level , while in a semiconductor it is fixed to the lattice in reciprocal space.
Heat energy is "energy" and temperature is not "energy".
no, temperature is one form of energy, heat.
Temperature is not a form of energy, but a measurement of energy (specifically, heat energy). You can't add temperature to a substance, because every substance already has a temperature, whether it be at -50o C or 900o C. However, you can add heat to change the temperature.
Temperature is what is used to measure thermal energy The more thermal energy a substance has, the more warmer it will be. So when the temperature is high, there is a lot of thermal energy Thermal energy is just energy. It refers to the energy of the molecules. Temperature is just a measurement
It is a direct relationship. When temperature goes up, energy goes up. When temperature goes does, energy goes down.
The average kinetic energy of particles is temperature.
Temperature is the measure of the average kinetic energy of the molecules in a substance.
Thermal energy is energy that is related to heat and the temperature of matter.
If temperature is higher, kinetic energy is more