9-4 Geometry in Three Dimensions  Simple Closed Surfaces  Regular Polyhedra  Cylinders and Cones.

Slides:

Advertisements

Similar presentations

Chapter 12 – Surface Area and Volume of Solids

Advertisements

Volumes. Polyhedrons What is a polyhedron? Circles are not polygons.

Chapter 12: Surface Area and Volume of Solids

3.4 Polyhedrons and Prisms

10.6 Three- Dimensional Figures

By: Andrew Shatz & Michael Baker Chapter 15. Chapter 15 section 1 Key Terms: Skew Lines, Oblique Two lines are skew iff they are not parallel and do not.

Bell Ringer Get out your notebook and prepare to take notes on Chapter 8 What is the difference between two-dimensional and three-dimensional?

Section 2.4 Three Dimensional Shapes MA418 McAllister Spring 2009.

VOCABULARY GEOMETRIC FIGURES. POLYGON Is a closed plane figure formed by three or more line segments that meet at points called vertices.

Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 9.4 Volume and Surface Area.

For This Lesson... You will need: a straightedge.

Chapter 15: Geometric Solids Brian BarrDan Logan.

 A Polyhedron- (polyhedra or polyhedrons)  Is formed by 4 or more polygons (faces) that intersect only at the edges.  Encloses a region in space. 

Chapter 12 Notes.

Look at page 193 in your explorations book. Ignore the letters--they are not used for this. Each figure is made up of 5 squares that may or may not be.

Warm-up Review Take Home Quizzes. There will be a 3 question In Class Quiz based on them.

Surface Area and Volume Chapter 12. Exploring Solids 12.1 California State Standards 8, 9: Solve problems involving the surface area and lateral area.

Unit 5 Vocabulary 7 th Grade Mathematics GPS. WORDS Base of a cone Oblique cone Base of a pyramid Oblique cylinder Bases of a cylinder Polyhedron Bases.

The Geometry of Solids Section 10.1.

Math Jeopardy For more information, click >>>>>> Where two faces meet edge.

Warm up 1. Any line segment may be extended indefinitely to form a line. 2. Given a line, a circle can be drawn having the segment as a radius and one.

11.3 Surface Areas of Pyramids and Cones A pyramid is a polyhedron in which one face (the base) can be any polygon and the other faces (the lateral faces)

Do Now 5/6/13 Copy HW in your planner. Be ready to copy POTW #6

Chapter 11: Surface Area & Volume

Lesson 1.8 – Space Geometry Homework: Lesson 1.8/1-27 Chapter 1 Test Friday 10/18.

Look at page 193 in your explorations book. Ignore the letters--they are not used for this. Each figure is made up of 5 squares that may or may not be.

3-Dimentional Figures Section 11.1.

A. Polyhedrons 1. Vocabulary of Polyhedrons 2. Building Polyhedrons a. Create a net from the Polyhedron b. Create the Polyhedron from the net B. Prisms.

Section 12-1 Name the Solids. Prism a 3-dimensional figure with two congruent, parallel faces The bases are congruent, parallel faces. The bases lie in.

Identify each of the following shapes. In geometry, what is a net? what is surface area? cube Triangular pyramid Right square pyramid Rectangular prism.

12.1 – Explore Solids.

Chapter 12.1 Notes Polyhedron – is a solid that is bounded by polygons, called faces, that enclose a single region of space. Edge – of a polygon is a line.

12.1 & 12.2 – Explore Solids & Surface Area of Prisms and Cones.

Space Figures & Nets, Surface Areas of Prisms & Cylinders Unit 5, Lesson 1 chapter%20ten.ppt.

An introduction to 3D Figures

Chapter Area, Pythagorean Theorem, and Volume 14 Copyright © 2013, 2010, and 2007, Pearson Education, Inc.

Attributes A quality that is characteristic of someone or something.

Section 12-1 Exploring Solids. Polyhedron Three dimensional closed figure formed by joining three or more polygons at their side. Plural: polyhedra.

Surface Area and Volume

LESSON 49 Introduction to Solids. VOCABULARY Solids are three-dimensional figures that have flat and/or curved surfaces Polyhedron is a closed solid formed.

1.Square/ Rectangle: A=b x h 2.Triangle: A= ½ b x h ( a triangle is ½ of a rectangle) 3.Circle: A = r2.

Introduction to 3D Solids and Solids of Revolution Some 3D shapes can be formed by revolving a 2D shape around a line (called the axis of revolution).

Unit 9: Solids. A polyhedron is a solid that is bounded by polygons called faces, that enclose a region of space. An edge of a polyhedron is a line segment.

Colegio Herma. Maths. Bilingual Departament Isabel Martos Martínez

12.1 Exploring Solids Geometry. Defns. for 3-dimensional figures Polyhedron – a solid bounded by polygons that enclose a single region of shape. (no curved.

Part 1 Polygons Triangles A triangle is a polygon with 3 sides. VERTEX SIDE A=1/2bh or A=bh/2.

Name the polygon by the number of sides.

Goal 1: Using Properties of Polyhedra Goal 2: Using Euler’s Theorem

Polyhedra and Prisms.

Chapter 11 Extending Geometry

Surface Area and Volume

Goal: Identify and name solid figures.

Unit 11: 3-Dimensional Geometry

Unit 11: 3-Dimensional Geometry

INTRODUCTION TO GEOMETRIC SOLIDS.

11.3 Surface Areas of Pyramids and Cones

10.1 Vocab Day 1 Grab a notes page from the back under Geometry on Wednesday Have notebook and homework out.

Lesson 10.3 Three-Dimensional Figures

10.1 Solid Geometry Geometry.

Warm Up Classify each polygon. 1. a polygon with three congruent sides

Geometric Solids All bounded three-dimensional geometric figures. Examples: Sphere, Cylinders, Cubes, Cones, Pyramids, and Prisms.

Geometric Solids All bounded three-dimensional geometric figures. Examples: Sphere, Cylinders, Cubes, Cones, Pyramids, and Prisms.

Vertical Angles Vertical angles are across from each other and are created by intersecting lines.

11.5 Explore Solids Mrs. vazquez Geometry.

Geometry Chapter : Exploring Solids.

14 Chapter Area, Pythagorean Theorem, and Volume

Presentation transcript:

9-4 Geometry in Three Dimensions  Simple Closed Surfaces  Regular Polyhedra  Cylinders and Cones

Simple Closed Surfaces exactly one interior, no holes, and hollow These two figures are not simple, closed surfaces.

Sphere – the set of all points at a given distance from a given point (the center) Solid – the set of all points on a simple closed surface together with all interior points Polyhedron – a simple, closed surface made up of polygonal regions (faces). The vertices of the polygonal regions are the vertices of the polyhedron. The sides of the polygonal regions are called the edges of the polyhedron.

Polyhedra: Not polyhedra:

Prism – a polyhedron in which two congruent faces (the bases) lie in parallel plane and the other faces (lateral faces) are bounded by parallelograms.

Right prism – lateral faces are perpendicular (bounded) to the bases. Oblique prism – lateral faces are not perpendicular (not bounded) to the bases.

Pyramid – a polyhedron determined by a polygon and a point not in the plane of the polygon. is the Region or Point (faces other than the base)

Right pyramid – lateral faces are congruent isosceles triangles.

Regular Polyhedra Convex polyhedron – a polyhedron in which a segment connecting any two points in the interior of the polyhedron is in the interior of the polyhedron. Regular polyhedron – a convex polyhedron whose faces are congruent regular polygonal regions such that the number of edges that meet at each vertex is the same for all the vertices of the polyhedron. Platonic Solids – are regular solid polyhrdra

CubeTetrahedronOctahedron DodecahedronIcosahedron

Nets are plane figure that when folded gives a solid figure. Nets can be used to construct the five regular polyhedras

Example #10a Page 623 Name each polyhedron that can be constructed using the following flattened polyhedra: Answer: Right regular hexagonal pyramid. Assume the base is a regular hexagon and the triangles are congruent. Points, if folded up, would meet at a vertex.

Example #10b Page 623 Name each polyhedron that can be constructed using the following flattened polyhedra: Answer: Right square pyramid. Assume the base is a square and the triangles are congruent. Points would meet at a vertex.

Example #10c Page 623 Name each polyhedron that can be constructed using the following flattened polyhedra: Answer: Cube. All six faces are squares, assume they are congruent.

Example #10d Page 623 Name each polyhedron that can be constructed using the following flattened polyhedra: Answer: Right square prism. Assume the lateral bases are congruent and the ends congruent. Lateral faces of the prism would all be bounded by rectangles.

Example #10e Page 623 Name each polyhedron that can be constructed using the following flattened polyhedra: Answer: Right regular hexagonal prism. Assume both bases are congruent regular hexagons and the lateral faces are congruent.

Euler’s Formula What is the relationship between the number of vertices, faces, and edges of a polyhedron? Answer:V + F – E = 2

Cylinders A simple, closed surface that is not a polyhedron; formed as a line segment AB is parallel to a given line l for a planar curve other than a polygon.

The union of the line segments connecting a point P with each point of a simple, closed curve, the simple, closed curve, and the interior of the curve. Cones

HOMEWORK 9-4 Page , 9, 11, 13, 15, 23 CHAPTER REVIEW Page , 3, 5, 7, 11, 15, 17, 19