State Changes If you give the particles energy; or take energy away from them; then you can change their state. If you heat up a solid - you give it some energy. This causes the particles to move more and the solid to change into a liquid, or melt. If the liquid is heated then it may evaporate and turn into a gas.
Shrinks. Decreases resistivity / increases conductivity. Emits less heat energy in black body radiation.
slow down
slow down
it decreases because when an object is moving as the temperature decreases the object decreases
The faster the particles move- then the more energy they have, then the warmer the object will be.
When temperature increases, particles in an object speed up, which means an increase in thermal energy. Since the particles are moving more now, the potential energy decreases, therefore kinetic energy increases. Overall, when temp goes up, thermal energy goes up, which leads to an increase in kinetic energy.
If an object moves, it has kinetic energy. The same applies to particles.
Heat: the transfer of energy from the particles of a warmer object to the particles of a cooler object. (Source: Nelson Science and Technology Grade 7 Textbook, page 186.)
Kinetic energy is directly related to temperature, because temperature is the average kinetic energy of an object. Therefore, as the temperature of an object decreases, its kinetic energy decreases, as well.
it decreases because when an object is moving as the temperature decreases the object decreases
The faster the particles move- then the more energy they have, then the warmer the object will be.
When temperature increases, particles in an object speed up, which means an increase in thermal energy. Since the particles are moving more now, the potential energy decreases, therefore kinetic energy increases. Overall, when temp goes up, thermal energy goes up, which leads to an increase in kinetic energy.
If an object moves, it has kinetic energy. The same applies to particles.
The total kinetic and potential energy of its particles.
Heat: the transfer of energy from the particles of a warmer object to the particles of a cooler object. (Source: Nelson Science and Technology Grade 7 Textbook, page 186.)
No. The average kinetic energy of the individual particles in an object is basically related to the object's temperature.
The temperature of a substance increases as the mean random kinetic energy of its particles increases. This is because temperature of an object is directly proportional to the kinetic energy of its particles. Thus when the particles move faster as a whole, such as when the object is put near a flame, the object heats up.
When an object cools, the particles' kinetic energy transfers back into potential energy, the particles slow down.
When negative work is done on the object, the object's energy decreases. This MAY be kinetic energy, but some other form of energy may increase instead, for example, potential energy or heat energy.
No, radiation is not a measure of the average kinetic energy of particles in an object. Radiation refers to the emission of energy as electromagnetic waves or particles from a source. The energy of radiation can vary depending on the type and source, and it is not directly related to the average kinetic energy of particles in an object.