The measure of energy of motion and particles is kinetic energy. This type of energy arises from the movement of an object or particle and is calculated using the formula 1/2 mv^2, where m is the mass of the object and v is its velocity.
Another word for the measure of the energy of motion of particles of matter is kinetic energy.
The term defined as a measure of the energy of motion of particles is kinetic energy. It is dependent on the mass and velocity of an object.
Temperature is a measure of the energy of motion of particles in a substance. It provides information about how fast the particles are moving within the substance.
That sounds like the description of temperature.
The measure of the energy of motion of particles of matter is referred to as kinetic energy. This energy is dependent on the mass and velocity of the particles, with the formula for kinetic energy being KE = 0.5 * mass * velocity^2.
Another word for the measure of the energy of motion of particles of matter is kinetic energy.
The term defined as a measure of the energy of motion of particles is kinetic energy. It is dependent on the mass and velocity of an object.
Temperature is a measure of the energy of motion of particles in a substance. It provides information about how fast the particles are moving within the substance.
Temperture
That sounds like the description of temperature.
Temperture
heat
The measure of the energy of motion of particles of matter is referred to as kinetic energy. This energy is dependent on the mass and velocity of the particles, with the formula for kinetic energy being KE = 0.5 * mass * velocity^2.
evaporation this is tru
Particle motion increases as energy (like heat) is added. The motion slows as energy leaves. Temperature is a measure of this change in particle motion.
This measure is the temperature.
The measure of the energy of motion of particles of matter is called temperature. Temperature is a fundamental property of matter that quantifies how hot or cold an object is based on the average kinetic energy of its particles.