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mc2 could mean many things, but I assume you are talking about Einstein's famous equation E=mc2. I won't even pretend to know all the information behind this equation, but my understanding is that it basically calculates the amount of energy that could be spontaneously created by any mass. In the equation, E=mc2 E = Energy M = Mass C = Speed of Light (or 299,792,458 meters/second)
Becuase of the interpretation of the condence evaluation of the trophic leve leveld out by the consumers
The peaks are called the activation energy. It is the energy used to get the reaction going.
m stands for massE is energy, m is mass, and c is the speed of light.The formula shows what the energy equivalent of matter is: the energy obtained by changing a gram of mass to energy is 25 million kilowatt hours or 9 x 1013 joules.
It's a method of determining amounts of energy, but it also demonstrates the relationship between energy and mass.
Type your answer here... The variable Q
variable c
The specific heat of the substance being heated.
It depends on what equation. You usually plug the value of the thermal energy into the equation. usually in Celsius but in some equations it must first be converted into Kelvin. I recommend you google, or look up the specific equation using wikianswers.
I don't think there is one but I'm not sure. I don't think you show energy on a symbol equation.
Q=mc∆T
the higher the temperature: the more the movement of energy in the particle. the lower the temperature: the less the movement of energy in the particle.
Power = (energy dissipated or moved) / (time to move or dissipate it)
Specific heat can be used to measure changes in thermal energy by using the equation: Change in thermal energy = mass x Change in temperature x specific heat
"Thermal energy" or "heat"."Thermal energy" or "heat"."Thermal energy" or "heat"."Thermal energy" or "heat".
The thermal energy.The thermal energy.The thermal energy.The thermal energy.
In the equation E=he, h represents Planck's constant, which is a fundamental physical constant that relates the energy of a photon to its frequency.