If the average motion of particles is increased, the temperature of the substance will also increase. This is because temperature is directly related to the average kinetic energy of the particles in a substance. As particles move faster, they have more kinetic energy and thus the temperature rises.
When the temperature is decreased, the average kinetic energy of particles decreases since temperature is directly related to the average kinetic energy of particles. As a result, the pressure and number of collisions between particles will also decrease because particles will have less energy to move and collide with each other.
When the particles in an object are moving fast, the temperature of the object increases. This is because temperature is a measure of the average kinetic energy of the particles, and faster-moving particles have higher kinetic energy.
When the size is increased, the speed of particles typically decreases because the average distance they have to travel becomes greater, leading to more collisions and interactions that slow them down. This is due to increased friction and surface area that slows down the movement of particles.
When the temperature of a substance increases, the particles within the substance gain energy and move more quickly. This increased movement causes the particles to spread out and the substance to expand. Additionally, the increased kinetic energy may lead to changes in the substance's state, such as melting or vaporization.
As the temperature of a substance is increased, the average kinetic energy of its particles also increases. This increase in kinetic energy causes the particles to move faster and spread out, leading to an expansion in volume. The mass of the substance remains the same, as there is no change in the number of particles present.
It increases.
the range of energies becomes broader
The average particle speed increases.
the range of energies becomes broader
If you increase the temperature of a gas, its particles (atoms or molecules) will speed up. If it is in a closed container, the pressure will also increase.
When the temperature is decreased, the average kinetic energy of particles decreases since temperature is directly related to the average kinetic energy of particles. As a result, the pressure and number of collisions between particles will also decrease because particles will have less energy to move and collide with each other.
it blows up and down, up and down
When the particles in an object are moving fast, the temperature of the object increases. This is because temperature is a measure of the average kinetic energy of the particles, and faster-moving particles have higher kinetic energy.
When the size is increased, the speed of particles typically decreases because the average distance they have to travel becomes greater, leading to more collisions and interactions that slow them down. This is due to increased friction and surface area that slows down the movement of particles.
It increases.
When the temperature of a substance increases, the particles within the substance gain energy and move more quickly. This increased movement causes the particles to spread out and the substance to expand. Additionally, the increased kinetic energy may lead to changes in the substance's state, such as melting or vaporization.
As the temperature of a substance is increased, the average kinetic energy of its particles also increases. This increase in kinetic energy causes the particles to move faster and spread out, leading to an expansion in volume. The mass of the substance remains the same, as there is no change in the number of particles present.