I can decide if one rectangle is a dilation of another rectangle.
I know how to use a center and a scale factor to describe a dilation.
Lesson 2: Circular Grid
I can apply dilations to figures on a circular grid when the center of dilation is the center of the grid.
Lesson 3: Dilations with no Grid
I can apply a dilation to a polygon using a ruler.
Lesson 4: Dilations on a Square Grid
I can apply dilations to figures on a rectangular grid.
If I know the angle measures and side lengths of a polygon, I know the angles measures and side lengths of the polygon if I apply a dilation with a certain scale factor.
Lesson 5: More Dilations
I can apply dilations to polygons on a rectangular grid if I know the coordinates of the vertices and of the center of dilation.
Lesson 6: Similarity
I can apply a sequence of transformations to one figure to get a similar figure.
I can use a sequence of transformations to explain why two figures are similar.
Lesson 7: Similar Polygons
I know the relationship between angle measures and side lengths in similar polygons.
I can use angle measures and side lengths to conclude that two polygons are not similar.
Lesson 8: Similar Triangles
I know how to decide if two triangles are similar just by looking at their angle measures.
Lesson 9: Side Length Quotients in Similar Triangles
I can find missing side lengths in a pair of similar triangles using quotients of side lengths.
I can decide if two triangles are similar by looking at quotients of lengths of corresponding sides.
Lesson 10: Meet Slope
I can draw a line on a grid with a given slope.
I can find the slope of a line on a grid.
Lesson 11: Writing Equations for Lines
I can decide whether a point is on a line by finding quotients of horizontal and vertical distances.
Lesson 12: Using Equations for Lines
I can find an equation for a line and use that to decide which points are on that line.
Lesson 13: The Shadow Knows
I can model a real-world context with similar triangles to find the height of an unknown object.
