Water has a heat capacity that is approximately ten times larger than the heat capacity of copper metal. Assuming 100 j of energy is deposited into equal masses of the two materials as heat energy, what is true about the change in temperature?.

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04-11-2022
Chemistry

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Water has a heat capacity that is approximately ten times larger than the heat capacity of copper metal. Assuming 100 j of energy is deposited into equal masses of the two materials as heat energy, what is true about the change in temperature?.

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contexto1220 contexto1220 · Answer 1 · 2022-11-07T16:01:31-05:00

The temperature change for Copper (Cu) will be 10 times greater than that for water.

Heat is proportional to temperature change, with heat capacity serving as the proportionality constant. As a result, if two objects absorb the same amount of thermal energy, their temperature variations are determined by their relative heat capacities. Because copper has a heat capacity ten times that of water, it will suffer a tenfold increase in temperature fluctuation.

Copper has the chemical symbol Cu and the atomic number 29. It is a soft, malleable, ductile metal with excellent thermal and electrical conductivity.

The movement of microscopic particles known as atoms, molecules, or ions in solids, liquids, and gases produces heat energy. Heat energy may go from one substance to another. Heat is the transfer or movement of energy caused by a temperature differential between two components.

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