That happens at the "absolute zero" of temperature, also called zero kelvin.
In fact, according to quantum theory there is still a very small amount of motion
of particles even at zero kelvin.
Also, it's theoretically impossible to reach absolute zero, but we have got very close to it.
All molecular motion stops at Absolute Zero, or zero degrees Kelvin. That is equal to -273 degrees Celsius
This is incorrect. Particles never stop moving around - even at absolute zero. The uncertainty principle states that you can never know a particles position and momentum. Therefore if a particle stopped moving at absolute zero, you would know both and this would break the principle. As a result the particle still moving about to obey this principle - even at absolute zero.
Actually, both answers are both right and wrong. Absolute zero would be the point that all particles would stop moving. However, scientists have not been able to reach absolute zero- they have come close, but not close enough. So, no known particles have ever stopped vibrating in place.
Absolute zero
0 kelvin
- 273.15 degrees Celsius
Absolute zero: 0 degrees kelvin or -273 Celsius.
All particle motion stops at -273.15 Degrees Celsius, or 0 degrees Kelvin, although theoretically impossible, temperatures below this have been recorded.
It will need lots of hydrogen gas. Hydrogen is cold but it won't make zero. Nothing will make the temperature 0 so molecules will always be in motion. The Kinetic Theory should be a law
absolute zero
Absoulute Zero
0 K or -273 degrees Celsius.
The temperature: Increasing temperature makes the particles move faster. Heat energy is transferred by the movement of the particles. Because the solvent particles are moving faster, they bump into the solute.Stirring: Moves all the particles around do the solvent particles bump into the solute particles.
Perhaps. Temperature does not apply to quantum mechanical objects like particles. It applies to populations, such as a "mote" / body / air mass / planet / etc. There it means the individual atoms / molecules are moving with such-and-such an average speed. When dealing with a particle, it is better to refer to its kinetic energy.
To demonstrate this, you could heat water (heating it allows the particles to move faster) and you will see as it boils bubbles on the top, showing that particles are constantly moving however in this case you have sped them up.
the particles freeze up & not moving they lose energy and turn into ice
Percentage of homogenation or solubility? IF the particles have no specific direction and randomly distribute. Unless your looking for a specific type of movement.Sorry but temperature is the measure of the movement of particles in a substanceI think it is actually temperature, sorry.
No, particles never stop moving.
No, particles never stop moving.
No. Molecules never stop moving if they are about absolute zero in temperature.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
True Temperature is the measure of the average velocity of the particles in an object. The faster the particles are moving, the higher the temperature is in the object.
Temperature is the measure of how fast particles are moving in an object.
NO
Not precisely. A temperature can't have particles. A substance which is at a high temperature has particles which are moving fast.
Temperature.
The particles are moving very fast because the higher the temperature , the faster the particles are moving.
The particles are moving very fast because the higher the temperature , the faster the particles are moving.