Lesson 4

Dilations on a Square Grid

Let’s dilate figures on a square grid.

4.1: Estimating a Scale Factor

 

Points A, B and C are listed horizontally, and points A and B are closer together than are points B and C.

 

Point \(C\) is the dilation of point \(B\) with center of dilation \(A\) and scale factor \(s\). Estimate \(s\). Be prepared to explain your reasoning. 

4.2: Dilations on a Grid

  1. Find the dilation of quadrilateral \(ABCD\) with center \(P\) and scale factor 2.  
    Rectangle A B C D and point P on a square grid. Let the lower left corner be (0 comma 0). Then A B C D is A(2 comma 9), B(8 comma 9), C(8 comma 5) and D(2 comma 5) and point P is P(3 comma 7).
  2. Find the dilation of triangle \(QRS\) with center \(T\) and scale factor 2.
  3. Find the dilation of triangle \(QRS\) with center \(T\) and scale factor \(\frac{1}{2}\).
Point T, triangle Q R S and three projection rays on a square grid.

4.3: Card Sort: Matching Dilations on a Coordinate Grid

Your teacher will give you some cards. Each of Cards 1 through 6 shows a figure in the coordinate plane and describes a dilation.

Each of Cards A through E describes the image of the dilation for one of the numbered cards.

Match number cards with letter cards. One of the number cards will not have a match. For this card, you’ll need to draw an image.



The image of a circle under dilation is a circle when the center of the dilation is the center of the circle. What happens if the center of dilation is a point on the circle? Using center of dilation \((0,0)\) and scale factor 1.5, dilate the circle shown on the diagram. This diagram shows some points to try dilating. 

Five points on a circle on a coordinate plane, origin O.

Summary

Square grids can be useful for showing dilations. The grid is helpful especially when the center of dilation and the point(s) being dilated lie at grid points. Rather than using a ruler to measure the distance between the points, we can count grid units.

For example, suppose we want to dilate point \(Q\) with center of dilation \(P\) and scale factor \(\frac{3}{2}\). Since \(Q\) is 4 grid squares to the left and 2 grid squares down from \(P\), the dilation will be 6 grid squares to the left and 3 grid squares down from \(P\) (can you see why?). The dilated image is marked as \(Q’\) in the picture.

Points P and Q and image point Q prime on a square grid. Let the lower left corner be (0 comma 0). Then the points are P(7 comma 5), Q(3 comma 3) and Q prime(1 comma 2).

Sometimes the square grid comes with coordinates. The coordinate grid gives us a convenient way to name points, and sometimes the coordinates of the image can be found with just arithmetic.

For example, to make a dilation with center \((0,0)\) and scale factor 2 of the triangle with coordinates \((\text-1, \text- 2)\), \((3,1)\), and \((2, \text- 1)\), we can just double the coordinates to get \((\text- 2, \text- 4)\), \((6,2)\), and \((4, \text- 2)\).

Dilation on a coordinate plane, origin O.

Glossary Entries

  • center of a dilation

    The center of a dilation is a fixed point on a plane. It is the starting point from which we measure distances in a dilation.

    In this diagram, point \(P\) is the center of the dilation.

    A dilation
  • dilation

    A dilation is a transformation in which each point on a figure moves along a line and changes its distance from a fixed point. The fixed point is the center of the dilation. All of the original distances are multiplied by the same scale factor.

    For example, triangle \(DEF\) is a dilation of triangle \(ABC\). The center of dilation is \(O\) and the scale factor is 3.

    This means that every point of triangle \(DEF\) is 3 times as far from \(O\) as every corresponding point of triangle \(ABC\).

    2 triangles. Triangle DEF is a dilation of triangle ABC.
  • scale factor

    To create a scaled copy, we multiply all the lengths in the original figure by the same number. This number is called the scale factor.

    In this example, the scale factor is 1.5, because \(4 \boldcdot (1.5) = 6\), \(5 \boldcdot (1.5)=7.5\), and \(6 \boldcdot (1.5)=9\).

    2 triangles