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How does the mass of the substance affect the specific heat value?

Last updated date: 21st Jun 2024
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Hint: The measure of heat energy expected to raise the temperature of an item or unit of matter by one degree Celsius; in units of joules per kelvin \[\left( {J/K} \right)\] .
Enthalpy: the total amount of energy in a system, including both the inside energy and the energy expected to uproot its current circumstance
The mass \[m\] , specific heat \[c\] , change in temperature\[\;\Delta T\] , and heat added (or deducted)\[\;Q\] are connected by the condition:\[\;Q = mc\Delta T\]

Complete step by step answer:
Specific Heat Capacity: This exercise relates heat to a change in temperature. We examine how the measure of warmth required for a temperature change is dependent on mass and the substance involved, and that relationship is represented by the specific heat capacity of the substance, \[C\]
Specific heat is characterized as the measure of heat per unit mass of a substance that is required to build the temperature of the substance by one degree celsius.
Mass of the substance has no impact on specific heat, as it is as of now an amount communicated per unit mass

Note: 1)Heat capacity is the quantifiable actual amount that describes the measure of heat needed to change a substance's temperature by a given sum. It is estimated in joules per Kelvin and given by.
2)The heat capacity is a broad property, scaling with the size of the system.
3)The heat capacity of most systems isn't steady (however it can regularly be treated all things considered). It relies upon the temperature, pressure, and volume of the system under consideration