Theoreticaly the whole atom would stop vibrating but in the real world it is impossible to reach absolute zero. The normally straight line graph of vibration against temperature is fine until it gets close to 0 Kelvin. The temperature gets caught in the half of a half of a half of a half and so on and you never get there.
Absolute zero is the lowest possible temperature at which atoms cease moving, causing all molecular motion to stop. At this point, all substances would theoretically freeze as no heat energy is available for movement.
That is known as absolute zero, at which point matter ceases to move. Unfortunately, this state is impossible.
Zero. PV = nRT. T = 0, so nRT = 0, and thus PV must be zero also. Since we know the volume is not zero, the pressure must be zero.
The Kelvin scale is calibrated at absolute zero, which is the coldest temperature possible where particles stop moving and have zero thermal energy. This temperature is equivalent to -273.15 degrees Celsius.
Atoms have always and will always move unless, in the future, we find a way to get a substance to a temperature of absolute zero, 0 degrees Kelvin. Because the moving of the atoms creates heat.
Absolute zero is when the atoms of all matter will stop moving. It can't be further cooled once they stop.
In theory, all molecular motion ceases at absolute zero which is 0 Kelvin (-273.15 degrees Celsius). At this temperature, the molecules have minimal energy and stop moving completely. However, reaching absolute zero is not practically possible.
absolute zero, the temperature at which all molecules stop moving.
There is movement because it can't completely stop moving.
At absolute zero, particles stop moving and have minimum energy, but they still exist. Matter does not stop existing at absolute zero; it simply reaches its lowest possible energy state. In this state, particles do not completely stop moving, as quantum mechanical effects still play a role.
Yes, absolute zero is the temperature at which particles have minimum kinetic energy, resulting in minimal molecular motion. At this temperature, particles theoretically stop moving entirely.
No. They are as frozen still as they can ever be. It is said to be scientifically impossible to actually reach absolute zero.
There is nothing "magic" about absolute zero. It's unattainable in practice, but theoretically nothing in particular would "happen" if an atom did achieve that temperature. If you were hoping for an answer like "the electrons would stop moving and collapse into the nucleus", no, sorry, that's not going to happen.
Because that is 'absolute zero' it is the temperate where atom get so cold they stop moving.
No, scientists cannot cool matter to absolute zero, but they can get very close. Absolute zero is the lowest possible temperature where particles stop moving. By using techniques such as laser cooling and magnetic trapping, scientists can cool matter to within billionths of a degree above absolute zero.
by the laws of thermodynamics, nothing can ever reach absolute zero. Theoretically, molecular motion would stop. They would still be molecules, they would just not move.
Theoretically, the only way to completely stop the movement of any atom or molecule is to reduce its temperature to absolute zero.