Geometry Mini-Lesson (5, 3) (5, −3) (3, −5) (3, 5)

Slides:

Advertisements

Similar presentations

TESSELLATIONS Oleh : Sulistyana SMP N 1 Wonosari.

Advertisements

Lesson 9-5 Dilations.

Rotations Goal Identify rotations and rotational symmetry.

8.9 Congruent Polygons I can identify congruent figures and use congruence to solve problems.

MA.912.G.2.2: Determine the measures of interior and exterior angles of polygons, justifying the method used Tony is drawing a regular polygon. He has.

1. Prove that the sum of the interior angles of a polygon of n sides is 180 (n – 2). § 8.1 C B E D P F A Note that a polygon of n sides may be dissected.

Tessellations Warm Up Lesson Presentation Lesson Quiz

7-2 Similarity and transformations

6th Grade Math Homework Chapter 7-7

Tessellations 12-6 Warm Up Lesson Presentation Lesson Quiz

Dilation Rotation Trans- Lation/refle ction Angle of polygons More Angle pairs Angle Word problems Angle pairs

Lesson 14 Measure of the Angles of Polygons. Get the idea The sum of the measure of interior angles of any triangle is 180°. We can use this fact to help.

Tessellations *Regular polygon: all sides are the same length (equilateral) and all angles have the same measure (equiangular)

11.3 Polygons Polygon: Closed figure formed by 3 or more straight line segments and the sides do not overlap.

Chapter Congruence and Similarity with Transformations 13 Copyright © 2013, 2010, and 2007, Pearson Education, Inc.

Here are the eight semi-regular tessellations:

Geometry Lesson 4.3A Similarity

COMPOSITIONS OF TRANSFORMATIONS

9.1 Translations -Transformation: a change in the position, shape, or size of a geometric figure -Preimage: the original figure -Image: the resulting figure.

Lesson 10-4: Tessellation

Coming Attractions: regular It is regular because it fits together with no gaps. hexagon.

to summarize this presentation

Term Transformation Describe The change in the position of a geometric figure, the pre-image, that produces a new figure called the image Representation.

Objectives: - Define polygon, reflectional symmetry, rotational symmetry, regular polygon, center of a regular polygon, central angle of a regular polygon,

Objective: Students will be able to represent translations, dilations, reflections and rotations with matrices.

Tessellations 1 G.10b Images from ygons/regular.1.html

Chapter 12.  For each example, how would I get the first image to look like the second?

Lesson 10-4: Tessellation

Transformational Geometry

Reviewing angles and polygons

Transformations, Symmetries, and Tilings

CONGRUENCE AND TRANSFORMATIONS (GET GRAPH PAPER WHEN YOU ENTER CLASS) SECTION 4.4.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Vocab 1 Vocab 2 Transformations CompositionsMiscellaneous.

TESSELLATIONS Created by : 1.SulasihSMP N I Gresik 2.MinardjiSMP N I Bojonegoro 3.Indriana Y. SMP N 2 Semarang 4.DartoSMP N 4 Pakem 5.M. LahuriSMP N I.

Pretest Please complete the pretest for this standard on your own. Try to remember all you can from our first discussion of this topic.

Jeopardy Angles Parallel Lines Interior/ Exterior Angles Transformation Similar Polygons Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400.

Properties of Rotations 8.G.1, 8.G.3 Essential Question? How do you describe the properties of rotation and their effect on the congruence and orientation.

Objective: Sequences of transformations.

Tessellations 9-6 Warm Up Lesson Presentation Lesson Quiz

6-1 Angles of Polygons The student will be able to:

Warm up Identify the transformation ∆RST → ∆XYZ.

Similarity and Transformations

Tessellations A tessellation is made by reflecting, rotating or translating a shape. A shape will tessellate if it can be used to completely fill a space.

DO NOW W ( , ) X ( , ) Y ( , ) Z ( , ) YES NO YES NO YES NO

Polygons and Symmetry Goals: Define a Polygon

Angles of a Polygon Diagonal of a polygon – A segment that connects any two nonconsecutive vertices. The number of triangles formed by drawing diagonals.

Warm-Up How many lines of symmetry do the figures have? Draw them!

Unit 7 Review- Plane Geometry

Starter(s) Find the coordinates of the figure under the given translation. RS with endpoints R(1, –3) and S(–3, 2) along the translation vector 2, –1

Test: Thursday, October 22nd Bernhard – GT GEOMETRY

Introduction to Polygons - Part I

Warm-Up Graph the image of the polygon with vertices A(0,2), B(-2,-3), C(2, -3) after a dilation centered at the origin with a scale factor of 2.

Congruence and Transformations

9.1 Translations -Transformation: a change in the position, shape, or size of a geometric figure -Preimage: the original figure -Image: the resulting figure.

MATH 8 – UNIT 1 REVIEW.

Warm up Rotate P(-4, -4) 180 Rotate Q(-1, -3) 90 CCW

Warm up Rotate P(-4, -4) 180 Rotate Q(-1, -3) 90 CCW

4.1: Congruence and Transformation

Lesson 10-4: Tessellation

12-6 Tessellations Lesson Presentation Holt Geometry.

13 Chapter Congruence and Similarity with Transformations

Tessellations 12-6 Warm Up Lesson Presentation Lesson Quiz

Section 4 - 5: Polygons Review

Tessellations Warm Up Lesson Presentation Lesson Quiz

Dilations NOT an isometry.

Geometry Mini-Lesson Tuesday, May 14, 2019 Tony is drawing a regular polygon. He has drawn two of the sides with an interior angle of 120°, as shown below.

Tessellations Warm Up Lesson Presentation Lesson Quiz

8th Grade: Chapter 6 TRANSFORMATIONS

Practice Test for Chapter 7 - Transformations

UNIT 1B REVIEW Triangle Theorems, dilations, congruence, Parallel lines cut by a transversal.

Presentation transcript:

Geometry Mini-Lesson (5, 3) (5, −3) (3, −5) (3, 5) Louis wants to create a figure that has line symmetry. He draws the figure along the line y = x, as shown below. What are the coordinates in the image of the point (5, 3) when his figure is reflected over the line y = x ? (5, 3) (5, −3) (3, −5) (3, 5) MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson (−6, −5) (−5, 6) (−6, 5) (6, −5) Selena drew the figure as shown. What are the coordinates in the image of the point (6, 5) when her figure is rotated 90 degrees counterclockwise about the origin? (−6, −5) (−5, 6) (−6, 5) (6, −5) MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson Martina wants to create a quilt by sewing together individual polygons. Her favorite polygon is an octagon. Will Martina be able to tessellate the plane with a regular octagon to make a quilt? No. Martina can not tessellate a plane with any polygon with more than 6 sides. Yes. The sum of the interior angles is 1080°. This is a multiple of 360°, so Martina can tessellate the plane with a regular octagon. Yes. The interior angle of a regular octagon measures 180°. This is a factor of 360°, so Martina can tessellate the plane with a regular octagon. No. The interior angle of a regular octagon measures 135°. This is not a factor of 360°, so Martina cannot tessellate the plane with a regular octagon. MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson (−2, 6) (−3, 5) (−2, 5) (−3, 6) Juan is drawing a sketch of his neighborhood. All of the houses in his neighborhood are similar. Below is the sketch of Juan's neighborhood on the coordinate plane. The coordinates of the vertices H, O, U, S, and E all have integer values. Juan has begun to draw H'O'U'S'E'. What are the coordinates of vertex U' ? (−2, 6) (−3, 5) (−2, 5) (−3, 6) MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson (5, −2) (2, −5) (−5, −2) (5, 2) Trapezoid TRAP is shown on the coordinate grid below. The coordinates of vertices T, R, A, and P all have integer values. If trapezoid TRAP is rotated 270° counterclockwise about the origin to create trapezoid T'R'A'P', what will be the coordinates of T'? (5, −2) (2, −5) (−5, −2) (5, 2) MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson (−3, 1) (−1, 3) (1, 3) (−1, −3) Hexagon ABCDEF is shown below on a coordinate grid. The coordinates of vertices A, B, C, D, E, and F all have integer values. If hexagon ABCDEF is reflected about the line y = x to create hexagon A'B'C'D'E'F', what will be the coordinates of E' ? (−3, 1) (−1, 3) (1, 3) (−1, −3) MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson Tom's favorite sport is soccer. He wants to create a tessellation for the background of his computer desktop that looks like a soccer ball. If a soccer ball is made of a regular pentagon surrounded by 5 regular hexagons, will Tom be able to tessellate the plane of his desktop to look like a soccer ball? Yes. The interior angle measure of a regular hexagon is 120°. Since this is a factor of 360°, Tom will be able to tessellate the plane of his desktop to look like a soccer ball. No. The interior angle measure of a regular pentagon is 108°. Since this is not a factor of 360°, Tom will not be able to tessellate the plane of his desktop to look like a soccer ball. No. The sum of one interior angle of a regular pentagon and one interior angle of a regular hexagon is 228°. Since this is not a factor of 360°, Tom will not be able to tessellate the plane of his desktop to look like a soccer ball. No. The sum of one interior angle of a regular pentagon and two interior angles of a regular hexagon is 348°. Since this is not a factor of 360°, Tom will not be able to tessellate the plane of his desktop to look like a soccer ball. MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.

Geometry Mini-Lesson MA.912.G.3.4: Apply transformations (translations, reflections, rotations, dilations, and scale factors) to polygons to determine congruence, similarity, and symmetry. Know that images formed by translations, reflections, and rotations are congruent.