(Also available in WeScheme)
Students apply their knowledge of the Pythagorean Theorem and Circles of Evaluation to develop a function for the distance formula.
Lesson Goals |
Students will be able to:
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Student-Facing Lesson Goals |
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Materials |
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Supplemental Resources |
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Key Points for the Facilitator |
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- conditional
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a code expression made of questions and answers
- coordinate
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a number describing an object’s location
- hypotenuse
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the side opposite the 90-degree angle in a right triangle
- Pythagorean Theorem
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the relationship between the squares of the sides of a right triangle; can be used to find diagonal distances on the coordinate plane
🔗Distance in 1 Dimension 15 minutes
Overview
Students discover the need for distance calculation (first in one dimension, then in two) in video games.
Launch
Sign in to code.pyret.org (CPO) and open your saved Game Starter Files.
At this point:
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The Target and Danger should be moving on their own.
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The Player should respond to keypresses.
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The Target and Danger should re-appear after they leave the screen.
It’s almost fully-playable!
Here’s a link to a Sample Game Starter File you can use if you’re demoing on the board.
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What seems to be missing from this game?
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The characters aren’t doing anything when they collide.
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What does it mean for characters to 'hit' one another? To collide?
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They have to be close enough to touch.
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How will the computer know when the characters have collided?
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When the coordinates of the characters are really close to each other.
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In the following activity, students will role play a collision between two characters.
Draw a "number line" on the floor or across a wall of your classroom as the backdrop for your movement, and select a volunteer to represent a character in the game (either TARGET
or DANGER
), while represent the PLAYER
. Emphasize that this represents one dimension (perhaps the x-axis). Both of you should stand on the number line, 8-10 steps away from one another.
Each image in the game is located based on its center. Make sure that you and your volunteer stand with feet as close together as possible, representing the infinitely small point that identifies your center. Have you and the volunteer raise your arms to form a "T shape", representing the outer edges of the characters.
Ask the class how far apart you and your volunteer are. How they would calculate this if you were standing on a number line and they could see the actual coordinates under your feet? The goal is to illicit the response that students would subtract the smaller coordinate from the larger one (or subtract in any order and take the absolute value).
Side-step towards each other one step at a time, each time asking the class, "We are colliding: True or False?" Be sure to only accept "true" and "false" as responses - not "yes" and "no"!
After a few iterations, try switching places and repeating. Point out that students always subtract the smaller number from the larger one, regardless of the character order! The results are always positive.
Do this until students can clearly see that collision happens when the two characters are touching or overlapping in some way - NOT when they are at the same point.
Investigate
Our game computes 1-dimensional distance (vertical or horizontal) using a function called line-length
. Let’s explore how it works!
If you want to provide students with the questions below, use Line Length Explore.
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Find the
line-length
function in your game files and take a minute to look at the code. -
What do you notice?
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Both of the examples do the same thing, even though the numbers are given in a different order.
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It’s a piecewise function!
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It uses inequalities.
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What do you wonder?
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Click "Run", and practice using
line-length
in the Interactions Area with different values fora
andb
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What does the
line-length
function do?-
It always subtracts the smaller number from the larger number and evaluates to a positive distance!
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Why does it use conditionals?
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To determine whether or not to subtract the numbers in the given order or to swap the order to get a positive result.
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Synthesize
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Why is the distance between two points always positive?
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Because distance has nothing to do with direction - it takes just as long to drive from Seattle to Wichita as it does to drive from Wichita to Seattle.
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Why line-length? Students learn early on that distance in 1-dimension is computed via \lvert x_2 - x_1 \rvert, and that distance is always a positive value. The Pythagorean Theorem teaches students that the length of the hypotenuse is computed based on the distance in the x- and y-dimension. Most math textbook, however, show the distance formula without connecting back to that theorem. √( ( (x_2 - x_1) )^2 + ( (y_2 - y_1) )^2 ) A student who asks whether it’s a problem when x_2 - x_1 is negative is displaying a deep understanding of what’s going on! Using the This effectively rewrites the distance formula as: √( ( \lvert x_2 - x_1 \rvert )^2 + ( \lvert y_2 - y_1 \rvert )^2 ) |
🔗Distance in 2 Dimensions 30 minutes
Overview
Students extend their understanding of distance from one dimension to two.
Launch
We just practiced computing the distance in 1-dimension, which is useful if the Player and Danger have the same x- or y-coordinate. But how do we compute the distance between two points when both the x- and y-coordinates are different?
Here’s a link to a Sample Game with Distance Lines Made Visible to use if you’re demoing the instruction below on the board.
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Scroll down to
4. Collisions
in your game file and look for thedistances-color
definition. What is the value defined to be?-
Right now this value is defined to be the empty string
""
.
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Change this to a color that will show up on your background, and click "Run". What happens?
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This setting draws lines from your Player to each of the other characters, and then uses those lines as the hypotenuse of right triangles! The legs of these triangles show the distance in 1 dimension each (on the x- and y-axis).
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In order to compute the diagonal distance between two characters in a video game, we’ll need a special formula that considers both the vertical and the horizontal distances between them!
When we turned on distances-color
in our game, we saw the diagonal distance between two characters represented as the hypotenuse of a right triangle.
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How do we find the hypotenuse of a right triangle if we know the measures of both of its legs?
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The Pythagorean Theorem! a^2 + b^2 = c^2
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If we had one player at (0,0) and another player at (4,3), we’d see a right triangle and the lengths of the legs would be 3 and 4. How would we use the Pythagorean Theorem to find the hypotenuse of the triangle?
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We would add 3^2 and 4^2, or 9 and 16, to get 25. The square root of 25, or 5, is the length of the hypotenuse.
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Note: If it’s been a long time since your students have used the Pythagorean Theorem, now would be a good time to do some Pythagorean Theorem Practice.
Connecting Pythagorean Theorem to video games We recommend carving out 4.5 minutes and wowing your students with Tova Brown’s Video of a Geometric Proof of the Pythagorean Theorem and its application to finding distance between game characters. Then have them try explaining the proof to one another. In our case, the lengths A and B are computed by the |
Optional: On Writing Code to Calculate Missing Lengths we’ve provided screenshots from two games where the horizontal and vertical distances between the characters are shown. Students are asked to write the code to calculate the distance between these characters using the Pythagorean Theoream. You could also have them do the computations (using a calculator) and compare their results to what their code evaluates to.
Investigate
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Turn to Distance on the Coordinate Plane and look at how line-length is used in the code. See if you can figure out how to write the code for the second problem.
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Then turn to Circles of Evaluation: Distance between (0, 2) and (4, 5) in your student workbook. Convert this expression to a Circle of Evaluation, and then to code.
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Then we’ll make sure we really understand it all with Multiple Representations: Distance between two points by combining circles of evaluation, code, computation and a sketch on a graph.
For more practice writing code to generate the distance between two fixed points, use:
Debrief these workbook pages - or have students pair-and-share - before moving on to writing the full distance function. Explain to students that all of the practice they’ve done so far today focused on a screenshot of a moment in time. With the game stopped in that moment, we knew either the exact location of our characters or the exact distances between them. As we play our games, however, the characters are constantly changing locations!
In order to calculate the distance between two objects whose locations are constantly changing, we need to use variables!
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Turn to Distance (px, py) to (cx, cy) and use the Design Recipe to help you write a function that takes in two coordinate pairs (four numbers) of two characters (px, py) and (cx, cy) and returns the distance between those two points.
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HINT: The code you wrote in Circles of Evaluation: Distance between (0, 2) and (4, 5) can be used to give you your first example!
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When you’re done, fix the broken
distance
function in your game file, click "Run" and check that the right triangles in your file now appear with reasonable distances for the hypotenuse.
Optional: If we knew the lengths of the hypotenuse and one leg of the triangle, could we use the formula A^2 + B^2 = C^2 to compute the length of the other leg? Take a look at the two examples on Comparing Code: Finding Missing Distances.
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Common Misconceptions
It is extremely common for students to put variables in the wrong order. In other words, their program looks like
…num-sqrt(num-sqr(line-length(x1,y1)) + num-sqr(line-length(x2, y2)))…
instead of …num-sqrt(num-sqr(line-length(x2 x1)) + num-sqr(line-length(y2 y1)))…
In this situation, remind students to look back at what they circled and labeled in the example steps. This is why we label!
Synthesize
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How does the length of the hypoteneuse rely on the length of each side?
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Where do you see one formula being used inside the other?
🔗Additional Exercises
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Have students use the Design Recipe to solve Word Problem: line-length on their own.
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You might also want to have them modify
line-length
to make use of the absolute value function:num-abs
.
These materials were developed partly through support of the National Science Foundation, (awards 1042210, 1535276, 1648684, and 1738598). Bootstrap by the Bootstrap Community is licensed under a Creative Commons 4.0 Unported License. This license does not grant permission to run training or professional development. Offering training or professional development with materials substantially derived from Bootstrap must be approved in writing by a Bootstrap Director. Permissions beyond the scope of this license, such as to run training, may be available by contacting contact@BootstrapWorld.org.