Absolute zero can't really be reached. Also, I don't see why matter should cease to exist.
There is no phase of matter that has particles that do not move UNLESS the material is a SOLID at a temperature of ABSOLUTE ZERO.
This would depend on the freezing temperature of the material, and therefore, also on the type of material in question. At absolute zero, a theoretical temperature, all motion of the particles stops.
Scientists hypothesize that the substance could reach the temperature of absolute zero. There were wrong. Absolute zero is the state of matter when none of its particles are moving.
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.
Temperature is another way of saying that a particle is in motion. Considering that there is no such thing a pure absolute zero, it is generally assumed that all particles are in fact in motion.
There is no phase of matter that has particles that do not move UNLESS the material is a SOLID at a temperature of ABSOLUTE ZERO.
This would depend on the freezing temperature of the material, and therefore, also on the type of material in question. At absolute zero, a theoretical temperature, all motion of the particles stops.
Scientists hypothesize that the substance could reach the temperature of absolute zero. There were wrong. Absolute zero is the state of matter when none of its particles are moving.
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.
When it reaches its boiling point.
Temperature is another way of saying that a particle is in motion. Considering that there is no such thing a pure absolute zero, it is generally assumed that all particles are in fact in motion.
Temperature is another way of saying that a particle is in motion. Considering that there is no such thing a pure absolute zero, it is generally assumed that all particles are in fact in motion.
Absolute zero. On the Kelvin scale of heat measurement, 0K is the point at which no more energy can be removed or −273.15°C / −459.67°F. There is not enough energy there at 0K to transfer any movement from the substance to another substance.
All matter is made up of 'atoms', which are generally treated as tiny particles, although they have been shown to also have the properties of waves (just like light has both particle and wave nature). They are constantly in motion, and move faster in matter at a higher temperature. The temperature at which this motion is zero is -273C or 0K, absolute zero and is impossible to achieve.
Increases
As temperature is increased the kinetic energy of the constituent particles of matter increases.When temperature decreases the kinetic energy of them decreases. This is because temperature, or rather heat, is itself energy
Matter is anything that has mass and can take up space.The Particle Theory of Matter:1. Matter is made up of tiny particles (Atoms & Molecules)2. Particles of Matter are in constant motion.3. Particles of Matter are held together by very strong electric forces4. There are empty spaces between the particles of matter that are very large compared to the particles themselves.5. Each substance has unique particles that are different from the particles of other substances6. Temperature affects the speed of the particles. The higher the temperature, the faster the speed of the particles