Heat and temperature are related concepts in thermodynamics, but they represent different aspects of the thermal state of a substance. Here are five key differences between heat and temperature:
Definition:
Heat: Heat is a form of energy transfer between two substances at different temperatures. It flows from the substance at a higher temperature to the one at a lower temperature until thermal equilibrium is reached.
Temperature: Temperature is a measure of the average kinetic energy of the particles in a substance. It indicates how hot or cold a substance is but does not depend on the quantity of the substance.
Units:
Heat: The unit of heat is the joule (J) in the International System of Units (SI) or the calorie (cal) in the traditional metric system.
Temperature: The unit of temperature is the Kelvin (K) in the SI system. In the Celsius scale, degrees Celsius (°C) are commonly used for everyday measurements.
Transfer vs. State:
Heat: It is associated with energy transfer and is measured in terms of the amount of energy exchanged between substances. Heat can cause a change in temperature, phase, or other thermodynamic properties.
Temperature: It is a property of a system in equilibrium and is not a form of energy. Temperature measures the intensity of the thermal energy but does not quantify the amount of energy transferred.
Effect on Matter:
Heat: It can change the state of matter, raise the temperature of a substance, or cause other thermodynamic effects. For example, adding heat to ice causes it to melt and then further heat can raise the temperature of the resulting liquid water.
Temperature: It provides information about the thermal state of a substance but does not by itself cause changes in the state of matter. It helps describe whether a substance is hot or cold.
Reference Points:
Heat: It does not have a reference point independent of the substances involved. The direction of heat flow is always from a higher temperature to a lower temperature.
Temperature: It has absolute reference points, such as absolute zero (0 Kelvin or -273.15 degrees Celsius), which represents the lowest possible temperature where particles have minimal kinetic energy.
In summary, heat is the transfer of thermal energy, while temperature is a measure of the average kinetic energy of particles in a substance. Heat causes temperature changes and other thermal effects, but temperature itself is a property that describes the thermal state of a substance.