The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Newton's law of heating

Newton's law of cooling

First law of thermodynamics

Stefan's law

Newton's law of heating

Newton's law of cooling

First law of thermodynamics

Stefan's law

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Heat and Mass Transfer
A designer chooses the values of fluid flow rates and specific heats in such a manner that the heat capacities of the two fluids are equal. A hot fluid enters the counter flow heat exchanger at 100°C and leaves at 60°C. A cold fluid enters the heat exchanger at 40°C. The mean temperature difference between the two fluids is

66.7°C

40°C

20°C

60°C

66.7°C

40°C

20°C

60°C

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Heat and Mass Transfer
Total heat is the heat required to

Increase the temperature of a liquid or vapour

Change liquid into vapour

Change vapour into liquid

Convert water into steam and superheat it

Increase the temperature of a liquid or vapour

Change liquid into vapour

Change vapour into liquid

Convert water into steam and superheat it

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Heat and Mass Transfer
A designer chooses the values of fluid flow rates and specific heats in such a manner that the heat capacities of the two fluids are equal. A hot fluid enters the counter flow heat exchanger at 100°C and leaves at 60°C. A cold fluid enters the heat exchanger at 40°C. The mean temperature difference between the two fluids is

66.7°C

60°C

20°C

40°C

66.7°C

60°C

20°C

40°C

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Heat and Mass Transfer
The critical temperature is the temperature

Below which a gas does not obey gas laws

Above which a gas may explode

Below which a gas is always liquefied

Above which a gas will never liquefied

Below which a gas does not obey gas laws

Above which a gas may explode

Below which a gas is always liquefied

Above which a gas will never liquefied

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Heat and Mass Transfer
The value of Prandtl number for air is about

0.7

0.1

1.7

0.3

0.7

0.1

1.7

0.3

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Heat and Mass Transfer

Heat and Mass Transfer The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer Total heat is the heat required to

Heat and Mass Transfer The critical temperature is the temperature

Heat and Mass Transfer The value of Prandtl number for air is about

Heat and Mass Transfer
The heat transfer from a hot body to a cold body is directly proportional to the surface area and difference of temperatures between the two bodies. This statement is called

Heat and Mass Transfer
Total heat is the heat required to

Heat and Mass Transfer
The critical temperature is the temperature

Heat and Mass Transfer
The value of Prandtl number for air is about