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## 8th grade (Eureka Math/EngageNY)

### Unit 2: Lesson 1

Topic A: Definitions and properties of the basic rigid motions- Introduction to geometric transformations
- Identifying transformations
- Identify transformations
- Translations intro
- Translating points
- Translate points
- Translating shapes
- Translating shapes
- Translate shapes
- Determining translations
- Determine translations
- Rotations intro
- Rotating points
- Rotate points (basic)
- Determining rotations
- Determine rotations (basic)
- Reflecting points
- Reflect points
- Reflecting shapes
- Reflecting shapes
- Reflect shapes
- Determining reflections
- Determine reflections
- Translations review
- Rotations review
- Reflections review

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# Identifying transformations

CCSS.Math:

Identifying which transformation was performed between a pair of figures (translation, rotation, reflection, or dilation).

## Want to join the conversation?

- What are all the transformations?(13 votes)
- There are four different types of transformations.
**Translation**:

the object moves up/down/left/right, but the shape of the object stays exactly the same. Every**point**of the object moves the same*direction*and*distance*.**Rotation**:

the object is rotated a certain number of degrees about a fixed point (the**point of rotation**). A*positive*rotation moves counterclockwise; a*negative*rotation moves clockwise.**Reflection**:

the object is reflected (or "flipped") across a**line of reflection**, which might be the x-axis, y-axis, or some other line.**Dilation**:

the object stays the same shape, but is either stretched to become larger (an "enlargement") or shrunk to become smaller (a "reduction").

It is possible for an object to undergo more than one transformation at the same time.

Hope this helps!(54 votes)

- In the 3rd example, I understand that it is reflection, but couldn't it also be rotation.(6 votes)
- A rotation always preserves clockwise/counterclockwise orientation around a figure, while a reflection always reverses clockwise/counterclockwise orientation.

It can be verified by the distance formula or Pythagorean Theorem that each quadrilateral has four unequal sides (of lengths sqrt(2), 3, sqrt(10), and sqrt(13)). This means there's**only one way**that the sides of quadrilateral A can correspond to the sides of quadriateral B.

If one travels counterclockwise around the sides of quadrilateral A, then the corresponding sides of quadrilateral B would be in clockwise order. So the transformation reverses clockwise/counterclockwise orientation and therefore cannot be a rotation.

Have a blessed, wonderful day!(13 votes)

- what is dilation(4 votes)
- Dilation makes a triangle bigger or smaller while maintaining the same ratio of side lengths.(4 votes)

- Pause at2:35, it looks like a sting ray!(5 votes)
- at1:55, sal says the figure has been rotated but I was wondering why it can't be a reflection? both reflection and rotation seem possible, the way I am understanding this.(2 votes)
- If you put an imaginary line in between the two shapes and tried to flip one onto the other, you would not be able to do it without rotating one shape.(6 votes)

- Can a Dilation be a translation and dilation?(3 votes)
- Yes, a dilation about a point can be expressed as a translation followed by a dilation by the same factor but about a different point.(3 votes)

- So Dilation is when the figure is smaller(1 vote)
- Dilation is when the figure retains its shape but its size changes. This can either be from big to small or from small to big. To dilate a figure, all we have to do is multiply every point's coordinates by a scale factor (>1 for an increase in size, <1 for a decrease). Hope this helps!(7 votes)

- SO does translation and rotation the same(2 votes)
- Translation implies that that every coordinate is moves by (x,y) units

Rotation means that the whole shape is rotated around a 'centre point/pivot' (m).(5 votes)

- If I had a Hexagon and turned it ninety degrees what would that be?(2 votes)
- That would be a hexagon.(3 votes)

- I don't know why, but it's probably just me. When Sal says one single translation, it's kind of two, right? Like the dilation, it is enlarging, then moving?(5 votes)
- It's probably done that way to make it easier to distinguish the two shapes.(0 votes)

## Video transcript

- [Instructor] What we're
going to do in this video is get some practice identifying
some transformations. And the transformations
we're gonna look at are things like rotations
where you are spinning something around a point. We're gonna look at translations, where you're shifting all
the points of a figure. We're gonna look at reflection, where you flip a figure
over some type of a line. And we'll look at dilations, where you're essentially
going to either shrink or expand some type of a figure. So with that out of the way, let's think about this question. What single transformation was applied to triangle A to get triangle B? So it looks like triangle
A and triangle B, they're the same size, and what's really
happened is that every one of these points has been shifted. Or another way I could say it, they have all been translated a little bit to the right and up. And so, right like this, they have all been translated. So this right over here
is clearly a translation. Let's do another example. What single transformation was applied to triangle A to get to triangle B? So if I look at these diagrams, this point seems to
correspond with that one. This one corresponds with that one. So it doesn't look like
a straight translation because they would have been
translated in different ways, so it's definitely not
a straight translation. Let's think about it. Looks like there might be a rotation here. So maybe it looks like
that point went over there. That point went over there. This point went over here, and so we could be rotating around some point right about here. And if you rotate around that point, you could get to a situation
that looks like a triangle B. And I don't know the exact point that we're rotating around,
but this looks pretty clear, like a rotation. Let's do another example. What single transformation was applied to quadrilateral A to
get to quadrilateral B? So let's see, it looks like this point corresponds to that point. And then this point
corresponds to that point, and that point corresponds to that point, so they actually look like
reflections of each other. If you were to imagine
some type of a mirror right over here, they're
actually mirror images. This got flipped over the line, that got flipped over the line, and that got flipped over the line. So it's pretty clear that this right over here is a reflection. All right, let's do one more of these. What single transformation was applied to quadrilateral A to
get to quadrilateral B? All right, so this looks like, so quadrilateral B is clearly bigger. So this is a non-rigid transformation. The distance between corresponding points looks like it has increased. Now you might be saying, well, wouldn't that be, it looks like if you're making something
bigger or smaller, that looks like a dilation. But it looks like this
has been moved as well. Has it been translated? And the key here to realize is around, what is your center of dilation? So for example, if your
center of dilation is, let's say, right over here, then all of these things are
gonna be stretched that way. And so this point might go to there, that point might go over there, this point might go over here, and then that point might go over here. So this is definitely a dilation, where you are, your center where everything is expanding from, is just outside of our trapezoid A.