It is -459.67 deg F.
That would be at absolute zero, where all molecular motion cease. The temperature is 0 Kelvin or -273.15 degrees Celsius or -459.67 degrees Fahrenheit.
The most significant thing about the temperature of absolute zero is that is marks the point where molecular motion stops. It is equal to −459.67 degrees Fahrenheit.
On the Kelvin scale, zero is the temperature at which there is no atomic or molecular motion.
This is called "absolute zero" or 0 degrees Kelvin. This temperature is the same as -273.15 degrees Celsius or -459.67 degrees Fahrenheit.
All molecular motion stops at absolute zero because absolute zero is the coldest possible temperature. And it is only able to achieve this temperature if the molecules/atom do not possess any thermal energy. And thermal energy is what causes vibrating motion of the molecules/atom. Thus at this temperature no molecules/atoms will vibrate due to the complete lack of energy.
That would be at absolute zero, where all molecular motion cease. The temperature is 0 Kelvin or -273.15 degrees Celsius or -459.67 degrees Fahrenheit.
Yes - if one is using the Kelvin temperature scale. Molecular motion is predicted to stop at "absolute zero" a temperature so low it cannot be achieved by scientists. 0º Kelvin = −273.15 ° Celsius = -459.67 Fahrenheit
The most significant thing about the temperature of absolute zero is that is marks the point where molecular motion stops. It is equal to −459.67 degrees Fahrenheit.
On the Kelvin scale, zero is the temperature at which there is no atomic or molecular motion.
This is called "absolute zero" or 0 degrees Kelvin. This temperature is the same as -273.15 degrees Celsius or -459.67 degrees Fahrenheit.
a measure of molecular motion
Molecular motion / kinetic energy.
The the Fahrenheit value for "absolute zero".
All molecular motion stops at absolute zero because absolute zero is the coldest possible temperature. And it is only able to achieve this temperature if the molecules/atom do not possess any thermal energy. And thermal energy is what causes vibrating motion of the molecules/atom. Thus at this temperature no molecules/atoms will vibrate due to the complete lack of energy.
When the temperature increases during a chemical or physical change the molecular movement increases. This means the molecular movement is faster. If the temperature decreases the molecular movement decreases. This means the molecular movement is slower.
No molecular motion only ceases when the temperature is at absolute zero. The molecules have retained their kinetic energy although they are at equillibrium.
The most significant thing about the temperature of absolute zero is that is marks the point where molecular motion stops. It is equal to −459.67 degrees Fahrenheit.