When we rotate a point around the origin by 180 degrees, the rule is as follows: We can see another predictable pattern here. Now let's consider a 180-degree rotation: With a 90-degree rotation around the origin, (x,y) becomes (-y,x) We might have noticed a pattern: The values are reversed, with the y value on the rotated point becoming negative. Let's start with everyone's favorite: The right, 90-degree angle:Īs we can see, we have transformed P by rotating it 90 degrees. Some of the most useful rules to memorize are the transformations of common angles. There are many important rules when it comes to rotation. On the other hand, we can also use certain calculations to determine the amount of rotation even without graphing our points. We measure the "amount" of rotation in degrees, and we can do this manually using a protractor. Just like the wheel on a bicycle, a figure on a graph rotates around its axis or " center of rotation." As it turns out, the mathematical definition of rotation isn't all that different. We can even rotate ourselves by spinning around until we get dizzy. After all, the wheels on a bicycle or a skateboard rotate. We're probably already familiar with the concept of rotation. But how exactly does this work? Let's find out: What is a rotation? One of these techniques is "rotation." As we might have guessed, this involves turning a figure around on its axis. As we get further into geometry, we will learn many different techniques for transforming graphs.
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