16_relative

# 16_relative - Lesson 16 Relative Motion Relative motion is...

This preview shows pages 1–2. Sign up to view the full content.

Lesson 16: Relative Motion Relative motion is just a way of saying that sometimes different people will say different things about the motion of the same object. This is not because one of them is wrong, but because they are using different frames of reference . The best way to see how this is possible is to look at some examples. In all of the following examples, ignore air resistance. 1-D Relative Motion Example 1 : Let’s say I am standing on the back of a pickup truck (that is motionless), and I am throwing apples forwards. I know that I can throw an apple at exactly 15m/s every time. If a person were standing on the sidewalk, how fast would she say the apples are moving? Since she will see them exactly the same way as me (we're both in the same reference frame), she will say 15m/s . Now the truck starts to move forwards at 20m/s . I am still throwing apples forwards, exactly the same as I was throwing them before, at 15m/s . If I am really not paying attention to what’s going on around me (like the fact that I am standing in the back of a moving truck), how fast would I say the apples are moving? Still 15m/s ! Relative to me, I can only make an apple move away from me at 15m/s , so that’s how fast I measure the apple moving away from me. How fast does my friend on the sidewalk say the apple is moving? Well, even before I throw it, she’ll say that the apple is moving at 20m/s (the speed of everything on the truck). When I have thrown the apple forward, adding more velocity to it, she will say it is going at ( 20m/s + 15m/s ) 35m/s ! Now I turn around and start throwing the apples from the rear of the truck, backwards! I will still say that my apples are moving at 15m/s , because from my way of looking at it, that’s how fast the apple is moving. The only thing I might say that is different is that it is -15m/s , since even I should be able to notice they are going in the opposite direction now. My friend on the sidewalk will say that the apple is moving at ( 20m/s + -15m/s ) 5m/s ! In each of the above examples, we are really talking about two different people having two different frames of reference while measuring the relative velocity of one object. Frame of reference

This preview has intentionally blurred sections. Sign up to view the full version.

View Full Document
This is the end of the preview. Sign up to access the rest of the document.

## This note was uploaded on 07/24/2009 for the course PHY 092342 taught by Professor Knott during the Spring '09 term at Cosumnes River College.

### Page1 / 4

16_relative - Lesson 16 Relative Motion Relative motion is...

This preview shows document pages 1 - 2. Sign up to view the full document.

View Full Document
Ask a homework question - tutors are online