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How specific heat capacity does not depend on mass?

How specific heat capacity does not depend on mass?

We need to know the amount of heat energy per unit mass to get the specific heat. Hence specific heat does not depend on the mass of the body. As material to material the required heat energy will differ to get a temperature rise of 10oC per unit mass, the specific heat capacity depends on the material of the body.

Do heat capacity depends on mass?

The heat capacity of an object depends both on its mass and its chemical composition. Because of its much larger mass, the swimming pool of water has a larger heat capacity than the wading pool.

Is heat capacity independent of mass?

Unlike the total heat capacity, the specific heat capacity is independent of mass or volume. It describes how much heat must be added to a unit of mass of a given substance to raise its temperature by one degree Celsius.

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Is heat capacity proportional to mass?

Owing to the fact that the transferred heat is equal to the change in the internal energy, the heat is proportional to the mass of the substance and the temperature change.

Does not depend on the mass of the body but it is the characteristic property of the substance of the body?

Density is a characteristic property of a substance and doesn’t depend on the amount of substance.

How is heat capacity different from specific heat capacity?

Heat capacity is the ratio of the amount of heat energy transferred to an object to the resulting increase in its temperature. Specific heat capacity is a measure of the amount of heat necessary to raise the temperature of one gram of a pure substance by one degree K.

Does mass increase with heat?

No. Mass is the total amount of matter in an object &weight is a force that depends on gravity. Heating an object increases or decreases its length, area or volume but the mass is always the same.

How does mass impact heat energy?

In short you could say that you need more energy transfer or heat to raise the temperature of a big mass than you need for a small mass because there is more “stuff” to “heat up” there fore if you have twice the mass you need twice the energy transfer or heat to heat up the mass.

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Which of the following properties of matter depends on the mass or amount of a material?

Extensive properties
Extensive properties, such as mass and volume, depend on the amount of matter being measured. Intensive properties, such as density and color, do not depend on the amount of the substance present. Physical properties can be measured without changing a substance’s chemical identity.

What property is the characteristic or trait of matter that does not depend on the amount?

Intensive properties
Intensive properties do not depend on the amount of the substance present. Some examples of intensive properties are color, taste, and melting point. Extensive properties vary according to the amount of matter present. Examples of extensive properties include mass, volume, and length.

Does the specific heat capacity of a substance depend on mass?

It doesn’t. The Specific Heat Capacity is a property of a substance, which reflects how many Joules of energy it takes to raise the temperature of one gram of that substance by one degree (Kelvin or Centigrade). So, specific heat capacities are defined for a known mass of substance.

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Is heat capacitance the total heat energy of an object?

It is not the total heat energy of the object. This is an important equation because it relates the heat lost or gained by an object to its temperature change. A substance with a small heat capacitance cannot hold a lot of heat energy and so warms up quickly.

What is the specific heat capacity of 2g of water?

The specific heat capacity is intensive, and does not depend on the quantity, but the heat capacity is extensive, so two grams of liquid water have twice the heat capacitance of 1 gram, but the specific heat capacity, the heat capacity per gram, is the same, 4.184 (J/g. K).

Why does the rate of heat transfer slow down as temperature increases?

So as heat transfers from the hot object (which cools) to the cold object (which warms) the temperature difference reduces, and the rate of heat transfer slows down and finally stops when they reach the same temperature. The heat capacitance of a substance depends both on the material it is made of, and the mass of the substance.