Average velocity with respect to distance

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SUMMARY

This discussion clarifies the distinction between average velocity with respect to time and average velocity with respect to position. Average velocity with respect to time is commonly expressed in everyday scenarios, such as "I averaged 70 mph" during a drive. In contrast, average velocity with respect to position is defined as total displacement divided by total time, emphasizing its vector nature. The conversation highlights that what is often referred to as average velocity is actually average speed, which is a scalar quantity, while true velocity is a vector quantity.

PREREQUISITES
  • Understanding of basic calculus concepts
  • Familiarity with the definitions of velocity and speed
  • Knowledge of displacement and its significance in physics
  • Basic comprehension of vector and scalar quantities
NEXT STEPS
  • Study the mathematical definition of average velocity in physics
  • Explore the differences between vector and scalar quantities in detail
  • Learn about displacement and its applications in kinematics
  • Investigate real-world examples of average velocity versus average speed
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Students in calculus and physics, educators teaching kinematics, and anyone interested in understanding the nuances of motion and velocity in real-world contexts.

tony873004
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In my Calculus class we had a problem to compare average velocity with respect to time vs. average velocity with respect to position.

Average velocity with respect to time is what is usually used in everyday language... "I drove to LA. I averaged 70 mph".

Then the Calc teacher asked what was the significance of expressing average velocity with respect to position. He said that there is a significance to it in Physics. Go ask your Physics friends...

Well... you people are my Physics friends.:biggrin:
 
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tony873004 said:
In my Calculus class we had a problem to compare average velocity with respect to time vs. average velocity with respect to position.

Average velocity with respect to time is what is usually used in everyday language... "I drove to LA. I averaged 70 mph".

Then the Calc teacher asked what was the significance of expressing average velocity with respect to position. He said that there is a significance to it in Physics. Go ask your Physics friends...

Well... you people are my Physics friends.:biggrin:

Dimensionally it is the inverse of time.
 
Yeah... heck. I think i got it. Average velocity wrt position mean the total DISPLACEMENT over total time. Taking your example of driving to LA, the person says, "I drove at 70mph..." So, if we assume he took one hour to travel the distance, he must have traveled 70 miles.

But, if you take say, average VELOCITY, its the magnitude of the vector joining the initial and final positions, over the time taken.

What you normally refer to as average velocity, is actually average speed. Velocity, is a vector, speed is a scalar. I think that's it.
 

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