Velocity changes with temperature?

In summary, the conversation discusses gases and how substances change when they undergo temperature changes. It is noted that temperature is a measure of the average speed of a substance, while velocity has both direction and magnitude. The increase in average molecular speed when heating a substance is acknowledged, but the net velocity may not change due to the random directions of the molecules cancelling each other out. This is why containers of gas appear to sit still even though there is a net outwards pressure at the walls. It is also mentioned that for quiescent water, there is no net velocity, and changing the temperature would not result in a net velocity change. The focus of the discussion is on speed changes rather than direction changes, as the energy is the main concern.
  • #1
MathewsMD
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I am just discussing gases and how substances change when they undergo temperature changes. We know that temperature is a measure of the average speed of a substance. Okay, but when we look at velocity, it has both direction and a magnitude. So, when we heat a substance (ex. water), I understand that its molecules' average speed increases, but does its net velocity? Since all the molecules are pointing in random directions, wouldn't there be a net cancelling effect on the velocities of the individual molecules in this sample since it is a vector quantity we're assessing? For a cup of quiescent water, there is no net velocity, right? So if we were to either cool or heat this sample, it still wouldn't have a net velocity change, right?

Any clarification on the above matters would be great since I'm having trouble finding discussions regarding velocity changes instead of just speed changes. Thank you!
 
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  • #2
I understand that its molecules' average speed increases,
technically true - but the temperature is a manifestation of the average kinetic energy of the molecules, and it is the average of all the molecules, not the average kinetic energy of each individual molecule.
http://hyperphysics.phy-astr.gsu.edu/hbase/kinetic/kintem.html

... but does [the molecule]'s net velocity?
The instantaneous speed of the molecule has changed - yes.
As a result of a collision with another molecule, it will have a different direction and speed.

Since all the molecules are pointing in random directions, wouldn't there be a net cancelling effect on the velocities of the individual molecules in this sample since it is a vector quantity we're assessing?
Yes - this is why a container of gas sits still instead of gently shuffling across the floor.
The result of all the cancelling out is a net outwards pressure at the walls of the container - outwards in all directions.

For a cup of quiescent water, there is no net velocity, right? So if we were to either cool or heat this sample, it still wouldn't have a net velocity change, right?
That is correct.

That's why the talk is usually about speed rather than direction changes ... the directions tend to cancel out, and it's the energy we care about anyway.
 

1. How does temperature affect velocity?

Temperature can affect velocity in several ways. As temperature increases, the molecules in a substance gain more kinetic energy, causing them to move faster and collide more frequently. This can increase the average speed of the molecules, leading to an increase in velocity. Additionally, temperature can also affect the density and viscosity of a substance, which can in turn affect its velocity.

2. Is there a direct relationship between temperature and velocity?

In general, there is a direct relationship between temperature and velocity. As temperature increases, the average speed of molecules in a substance also increases, leading to an increase in velocity. However, this relationship may not hold true in all cases, as other factors such as density and viscosity can also play a role in determining velocity.

3. Can temperature changes affect the velocity of light?

In a vacuum, the velocity of light is constant and is not affected by temperature changes. However, in other mediums such as air or water, the velocity of light can be affected by temperature due to changes in the density and refractive index of the medium.

4. How do temperature changes affect the speed of sound?

Temperature changes can significantly affect the speed of sound. As temperature increases, the molecules in a substance move faster and collide more frequently, leading to an increase in the speed of sound. The opposite is true for a decrease in temperature, where the speed of sound decreases.

5. Can the temperature-velocity relationship be applied to all substances?

No, the temperature-velocity relationship may not apply to all substances in the same way. The impact of temperature on velocity can vary depending on the physical properties and state of a substance. For example, the relationship may be different for gases, liquids, and solids, as well as for different types of molecules within a substance.

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