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Temperature is a measure of how much energy an object has. Einstein's famous equation states the relationship your asking about; E=mc2. That is, the amount of energy an object has is proportional to its mass multiplied by the speed of light squared.
There is no relationship between applying heat energy to metal and that alone yielding an electrical current. However, conductors release heat (temperature increases) based on the amount of electrical load they bear in a direct relationship.
The specific heat is the amount of heat per unit mass required to raise the temperature by one degree Celsius. The relationship between heatand temperature change is usually expressed in the form shown below where c is the specific heat.
Because the size is a kintec force on it
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The curve showing the relationship between temperature and time for a given amount of liquid heated at a constant rate is called a "heating curve." This curve is mapped out on a graph.
The curve showing the relationship between temperature and time for a given amount of liquid heated at a constant rate is called a "heating curve." This curve is mapped out on a graph.
The oceans surface water temperature varies with the amount of solar radiation received, which is primarily a function of latitude.
Temperature is a measure of how much energy an object has. Einstein's famous equation states the relationship your asking about; E=mc2. That is, the amount of energy an object has is proportional to its mass multiplied by the speed of light squared.
As the temperature increases, the phases change from having the slowest amount of molecules to having the fastest amount of molecules (solid-liquid-gas)
The higher the temp, the higher the evaporation rate.
Increasing concentration of carbon dioxide in the atmosphere is considered a factor that increase the global warming.
As the temperature of the water increases, the amount of solute (in this case NH4Cl) that can be dissolved increases.
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The more carbon dioxide in the atmosphere, the higher the temperature.
There is no relationship between applying heat energy to metal and that alone yielding an electrical current. However, conductors release heat (temperature increases) based on the amount of electrical load they bear in a direct relationship.
indirect relationship