The temperature is absolute zero, a minimum temperature of matter based on continually reduced molecular motion.
(Although absolute zero cannot be attained, it is possible to get very very close, to about 170 billionths of a kelvin.)
Absolute zero is approximately -273.15 °C
On the Kelvin scale, zero is the temperature at which there is no atomic or molecular motion.
No molecular motion only ceases when the temperature is at absolute zero. The molecules have retained their kinetic energy although they are at equillibrium.
Kinetic energy is related to all motion.
Conduction
The particles on every state of matter are always in motion, and hence will have a specific amount of kinetic energy both related to their temperature and current state. Solids move less than liquids, liquids less than gasses, etc. At absolute zero, it's theorized that independant molecular movement within any state of matter would cease, and that matter would therefore have no kinetic energy other than being physically moved somewhere by an outside force.
On the Kelvin scale, zero is the temperature at which there is no atomic or molecular motion.
No molecular motion only ceases when the temperature is at absolute zero. The molecules have retained their kinetic energy although they are at equillibrium.
Kinetic energy is related to all motion.
Conduction
The temperature is absolute zero, a minimum temperature of matter based on continually reduced molecular motion. (Although absolute zero cannot be attained, it is possible to get very very close, to about 170 billionths of a kelvin.) Absolute zero is approximately -273.15 °C
0 Kelvins. -273.16 degrees Celsius.
Molecular motion / kinetic energy.
The particles on every state of matter are always in motion, and hence will have a specific amount of kinetic energy both related to their temperature and current state. Solids move less than liquids, liquids less than gasses, etc. At absolute zero, it's theorized that independant molecular movement within any state of matter would cease, and that matter would therefore have no kinetic energy other than being physically moved somewhere by an outside force.
Kinetic energy of a substance is the energy of motion of its particles. Temperature is a measure of this quality. When you increase the kinetic energy of a substance, you increase the motion and collisions between its particles, and its temperature goes up.
Yes, and the greater the kinetic energy, the faster the motion of the particles, and the higher the temperature, and vice versa.
its reduce lot of energy ....and atomic radiation........
Increasing temperature means increased kinetic energy on the atomic or molecular level. Temperature of a given substance is the average kinetic energy of the particles of which that substance is composed.