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# The Distance between Two Points

## Prerequisites

Students should be familiar with dot products and the Pythagorean theorem.

- Reading: GEM § 1.1.1-1.1.2, 1.1.4

## In-class Content

- Dot product review (SWBQ: 15 min) (Can be done as part of the Star Trek activity)

- Magnitudes of vectors (Lecture: 5 min) (Can be done as part of the Star Trek activity)
- The Distance Between Two Points: Star Trek (Kinesthetic Activity: 20-30 min)

## Homework for Symmetries

- (CircleVector)
Consider the geometry of $\vert \rr-\rrp\vert$.

Make a sketch of the graph $$ \vert \Vec r - \Vec a \vert = 2 $$ for each of the following values of $\Vec a$: $$ \begin{eqnarray} \Vec a &=& \Vec 0\\ \Vec a &=& 2 \hat \imath- 3 \hat \jmath\\ \Vec a &=& \hbox{points due east and is 2 units long} \end{eqnarray} $$

Derive a more familiar equation equivalent to $$ \vert \Vec r - \Vec a \vert = 2 $$ for arbitrary $\Vec a$, by expanding $\Vec r$ and $\Vec a$ in rectangular coordinates. Simplify as much as possible. (Ok, ok, I know this is a terribly worded question. What do I mean by “more familiar”? What do I mean by “simplify as much as possible”? Why am I making you read my mind? Try it anyway. Real life is not full of carefully worded problems. Bonus points to anyone who can figure out a better way of wording the question that doesn't give the point away.)

Write a brief description of the geometric meaning of the equation $$ \vert \Vec r - \Vec a \vert = 2 $$

- (Tetrahedron)
Using a dot product, find the angle between any two line segments that join the center of a regular tetrahedron to its vertices.

*Hint:*Think of the vertices of the tetrahedron as sitting at the vertices of a cube (at coordinates (0,0,0), (1,1,0), (1,0,1) and (0,1,1)—you may need to build a model and play with it to see how this works!)