0
What else can I help you with?
What is the temperature on the Fahrenheit scale at which all molecular motion virtually stops?
The temperature at which all molecular motion virtually stops is -459.67°F, also known as absolute zero. At this temperature, particles have minimal kinetic energy, resulting in minimal movement.
What is the value of 0 kelvin?
0 Kelvin represents absolute zero temperature, which is the lowest possible temperature where particles have minimal energy and motion. At this temperature, all molecular movement ceases, making it impossible to get any colder.
What is the temperature at which an object's energy is minimal?
An object's energy is minimal at absolute zero, which is 0 Kelvin or -273.15 degrees Celsius. At this temperature, particles have minimal kinetic energy and motion stops.
What happens if particles stop moving?
If particles were to stop moving completely, all processes that depend on particle motion and interaction, such as chemical reactions, heat transfer, and electrical conductivity, would cease. This would result in a state of absolute zero temperature, where all molecular motion stops.
The theoretical point at which all molecular motion stops is called?
"absolute zero" or 0 degrees Kelvin.
What is the temperature on the Fahrenheit scale at which all molecular motion virtually stops?
The temperature at which all molecular motion virtually stops is -459.67°F, also known as absolute zero. At this temperature, particles have minimal kinetic energy, resulting in minimal movement.
What is the value of 0 kelvin?
0 Kelvin represents absolute zero temperature, which is the lowest possible temperature where particles have minimal energy and motion. At this temperature, all molecular movement ceases, making it impossible to get any colder.
What is the temperature at which an object's energy is minimal?
An object's energy is minimal at absolute zero, which is 0 Kelvin or -273.15 degrees Celsius. At this temperature, particles have minimal kinetic energy and motion stops.
What is the temperature at which all molecular motion stops?
This is called absolute zero. The temperature is 0 Kelvin or -273.15 degrees Celsius.
Why temperature is measured at -273k?
Temperature is measured at 0 Kelvin (-273 degrees Celsius) because it is the point at which all molecular motion stops. This point is known as absolute zero and serves as the basis for the Kelvin temperature scale.
Is anything called cold?
yes, only something that is at absolute zero, a hypothetical temperature limit that all molecular motion stops. the temperature is 273.15o Celsius.
How is temperature related to kentic energy?
Temperature is directly related to the average kinetic energy of particles in a substance. As temperature increases, the average kinetic energy of particles also increases. This means that at higher temperatures, particles move faster and have more energy.
What happens if particles stop moving?
If particles were to stop moving completely, all processes that depend on particle motion and interaction, such as chemical reactions, heat transfer, and electrical conductivity, would cease. This would result in a state of absolute zero temperature, where all molecular motion stops.
The theoretical point at which all molecular motion stops is called?
"absolute zero" or 0 degrees Kelvin.
What does the absolute temperature scale use as its reference temperature?
-459.67 F Which is absolute zero and that is the temperature at which all molecular activity stops.
What is it called when molecular motion stops?
Absolute zero is the theoretical temperature at which all atomic motion stops. However, this temperature is unattainable, because it represents a complete lack of energy within particles of matter. Even in deep space, this temperature cannot be reached so, like the speed of light, it is a scientific limit which can only be approached. On the Kelvin scale it's 0, on the Celsius scale it's -273.16.
Explain how ideas about particles can account for the absolute zero of temperature?
Absolute temperature is a thermodynamic temperature and is used as the standard temperature unit. Temperature comes from the kinetic energy of a matters particle and random motions. When motion stops, it is considered absolute zero.
