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GEOMETRY Unit 1: Points, Lines, Planes, Angles Essential Question: What are the similarities and differences of spatial properties of points, lines, planes, rays and angles in real world applications to each other? Chapter: 1 1.1 Building Blocks of Geometry & Using Your Algebra Skills 1: Midpoint-undefined terms, point, line, plane, definition, collinear, coplanar, segment, endpoint, ray, length, congruent segments, bisect, segment bisector, coordinate, distance, between, midpoint, MIDPOINT FORMULA, 1.2 Poolroom Math-intersection, angle, vertex, sides, measure, degrees, congruent angles, protractors, angle bisector 1.3 What’s a Widget?-counterexample, right angle, acute angle, obtuse angle, straight angle, vertical angle, adjacent angles, linear pairs, complementary, supplementary, parallel lines, perpendicular lines, skew lines , postulate, theorem, conjecture Optional Sections 0.1 Geometric Art 0.3 Circle Designs 0.5 Knot Designs 1.4 Polygons 1.6 Circles 1.8 Space Geometry 0.2 Line Designs 0.4 Op Art 0.6 Islamic Tile Designs 1.5 Triangles and Special Quadrilaterals 1.7 A Picture is Worth a Thousand Words Exploration: Geometric Probability I 1.3 Points, Lines, and Planes-undefined terms, point, line, plane, definition, postulates, collinear, coplanar, endpoints, segment, ray 1.4 Sketching Intersections-intersection 1.5 Segments and Their Measures-coordinate, distance, length, between, congruent segments 1.6 Angles and Their Measures-angle, vertex, sides, measure, degree, congruent angles, acute angle, right angle, obtuse angle, straight angle, protractor 2.1 Segment Bisectors-midpoint, segment bisector, bisect, MIDPOINT FORMULA 2.2 Angle Bisectors-angle bisector, congruent angles 2.3 Complementary and Supplementary Angles-complementary, supplementary, adjacent, theorem *2.4 Vertical Angles-vertical angles, linear pair (identification only see Unit 2) 3.1 Relationships Between Lines-parallel lines, perpendicular lines, skew lines, conjecture, counterexample 3.2 Theorems About Perpendicular Lines KCCT: Lesson 11 p 86, lesson 12 p 92, lesson 17 p 122 Ladders to Success: Topic 6 p 130 and 139, Topic 2 p 42 Core Content: 3.1.1 (DOK 2), 3.1.2, 3.1.3. (DOK 2), 3.1.4, 3.3.1 (DOK 2) Program of Studies: SM5, SM1, SM2, MPA 2, SM 4, SR6 3.1.1 3.1.2 3.1.3 3.3.1 analyze and apply spatial relationships (not using Cartesian coordinates) among points, lines and planes (e.g., betweenness of points, midpoint, segment length, collinear, coplanar, parallel, perpendicular, skew). use spatial relationships to prove basic theorems. analyze and apply angle relationships (e.g., linear pairs, vertical, complementary, supplementary, corresponding and alternate interior angles) in real-world and mathematical problems. apply algebraic concepts and graphing in the coordinate plane to analyze and solve problems (e.g., finding the final coordinates for a specified polygon, midpoints, betweenness of points, parallel and perpendicular lines, the distance between two points, the slope of a segment). 2 2 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 2: Inductive/Deductive Reasoning Essential Question: How do you use inductive and deductive reasoning to form and prove conjectures about geometric properties? Chapter: 2 2.1 Inductive Reasoning-inductive reasoning, pattern, prediction, 2.2 Deductive Reasoning-deductive reasoning 2.3 Finding the nth Term-function rule 2.4 Mathematical Modeling-mathematical model, triangular numbers, square numbers, rectangular numbers 2.5 Angle Relationships- if-then statement, hypothesis, conclusion, converse 2.6 Special Angles on Parallel Lines-transversal, corresponding angles, alternate interior angles, alternate exterior angles, same-side interior angles Using Your Algebra Skills 2: Slope-SLOPE FORMULA Optional Sections Exploration: The Seven Bridges of Konigsberg Exploration: Patterns in Fractals 1.1 Finding and Describing Patterns-pattern, prediction 1.2 Inductive Reasoning-inductive reasoning *More Patterns, Function Rule, Math Models-function rule, math model, square numbers, triangular numbers, rectangular numbers 2.4 Vertical Angles 2.5 If-Then Statements and Deductive Reasoning- if-then statement, hypothesis, conclusion, deductive reasoning 3.3 Angles Formed by Transversals-transversal, corresponding angles, alternate interior angles, alternate exterior angles, same-side interior angles 3.4 Parallel Lines and Transversals 3.5 Showing Lines are Parallel-converse 3.6 Using Perpendicular and Parallel Lines Skills Review-Slope (p 665)-SLOPE FORMULA Optional Sections 2.6 Properties of Equality and Congruence KCCT: Lesson 12 p 92, Lesson 5 p 36, Lesson 17 p 122 Ladders to Success: Topic 6 p 136, Topic 4 p 86 Core Content: 3.1.2, 3.1.4, 1.3.2 (DOK 3), 3.3.1 (DOK 2), 3.1.3, 3.4.1 Program of Studies: SR1, SR2, SR3, SR6, FS3, SR3, SR5 3.1.2 1.3.2 3.3.1 3.1.3 3.4.1 use spatial relationships to prove basic theorems. describe and extend arithmetic and geometric sequences; determine a specific term of a sequence given an explicit formula; determine an explicit rule for the nth term of an arithmetic sequence and apply sequences to solve real-world problems. apply algebraic concepts and graphing in the coordinate plane to analyze and solve problems (e.g., finding the final coordinates for a specified polygon, midpoints, betweenness of points, parallel and perpendicular lines, the distance between two points, the slope of a segment). analyze and apply angle relationships (e.g., linear pairs, vertical, complementary, supplementary, corresponding and alternate interior angles) in real-world and mathematical problems. identify definitions, axioms and theorems, explain the necessity for them and give examples of them. 3 2 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 3: Triangle Relations Essential Question: How can you use properties of triangles to solve problems involving missing sides and angles in real world applications? Chapter: 3, 4 ?1.5 Triangles-triangle, equilateral, isosceles, scalene, equiangular, acute, right, obtuse 4.1 Triangle Sum Conjecture 4.2 Properties of Special Triangles-base, legs, base angles, vertex angle 4.3 Triangle Inequalities-exterior angle, interior angle, remote (opposite) interior angle, adjacent interior angle 4.4 Are There Congruence Shortcuts?-SSS, SAS 4.5 Are There Other Congruence Shortcuts?-ASA, AAS (SAA), *Hypotenuse-Leg-HL 4.6 Corresponding Parts of Congruent Triangles-corresponding parts, congruent figures, CPCTC 4.7 Flowchart Thinking 4.8 Proving Isosceles Triangle Conjectures Points of Concurrency (incenter, circumcenter, centroid, orthocenter)-incenter, circumcenter, altitude, orthocenter, median, centroid Optional Sections 3.1 Duplication Segments and Angles 3.2 Constructing Perpendicular Bisectors 3.3 Constructing Perpendiculars to a Line 3.4 Constructing Angle Bisectors 3.5 Constructing Parallel Lines Using Your Algebra Skills 3: Slopes of Parallel and Perpendicular Lines 3.6 Construction Problems Exploration: Perspective Drawing 3.7 Constructing Points of Concurrency 3.8 The Centroid Exploration: The Euler Line Using Your Algebra Skills 4: Writing Linear Equations Exploration: Napoleon’s Theorem 4.1 Classifying Triangles-triangle, equilateral, isosceles, scalene, equiangular, acute, right, obtuse 4.2 Angle Measures of Triangles-interior angle, exterior angle, remote (opposite) interior angle, adjacent interior angle 4.3 Isosceles and Equilateral Triangles-legs, base, base angles, vertex angle 4.7 Triangle Inequalities *4.6 Medians & Other Points of Concurrency (incenter, circumcenter, centroid, orthocenter)-incenter, circumcenter, altitude, orthocenter, median, centroid 5.1 Congruence and Triangles-corresponding parts, congruent figures, CPCTC 5.2 Proving Triangles are Congruent: SSS and SAS-SSS, SAS 5.3 Proving Triangles are Congruent: ASA and AAS-ASA, AAS (SAA) 5.4 Hypotenuse-Leg Congruence: HL-HL 5.5 Using Congruent Triangles Optional Sections: Constructions (segments, angles, perpendicular bisectors, perpendiculars to a line, angle bisectors, parallel lines) 5.6 Angle Bisectors and Perpendicular Bisectors 3.1.7 3.1.8 3.1.12 3.1.13 3.4.3 3.1.3 3.1.5 solve real-world and mathematical problems by applying properties of triangles (e.g., Triangle Sum theorem and Isosceles Triangle theorems). use the properties of triangles to prove basic theorems. apply the concepts of congruence and similarity to solve real-world and mathematical problems. prove triangles congruent and similar. be able to perform constructions such as a line parallel to a given line through a point not on the line, the perpendicular bisector of a line segment and the bisector of an angle. analyze and apply angle relationships (e.g., linear pairs, vertical, complementary, supplementary, corresponding and alternate interior angles) in real-world and mathematical problems. classify and apply properties of two-dimensional geometric figures (e.g., number of sides, vertices, length of sides, sum of interior and exterior angle measures). 2 3 2 2 KCCT: Lesson 14 p 104, Lesson 16 p 116, Lesson 19 p 133 Ladders to Success: Topic 1 p 24, Topic 5 p 108, Topic 7 p 152 Core Content: 3.1.7(DOK 2), 3.1.8, 3.1.12(DOK 3), 3.1.13, 3.4.3, 3.1.3 (DOK 2), 3.1.5 Program of Studies: SM 5, MPA 1, SR 4, SR 3, FS 3, SR 13, FS 1 GEOMETRY Unit 4: Proving Polygon Properties Essential Question: How can you use properties of polygons, including special quadrilaterals, to classify, solve, and prove geometric concepts? Chapter: 5 ?1.4 Polygons-polygon, side, vertex, diagonal, convex, concave, equilateral polygon, equiangular polygon, regular polygon ?1.5 Triangles and Special Quads 5.1 Polygon Sum Conjecture-interior angle, INTERIOR ANGLE SUM FORMULA, 5.2 Exterior Angles of a Polygon-exterior angle, EQUIANGULAR FORMULAS 5.3 Kite and Trapezoid Properties-kite, vertex angles, non-vertex angles, trapezoid, isosceles trapezoid, bases, base angles, legs, leg angles 5.4 Properties of Midsegments-midsegment of triangle, midsegment of trapezoid 5.5 Properties of Parallelograms-parallelogram 5.6 Properties of Special Parallelograms-rhombus, rectangle, square Optional Sections Explorations: Star Polygons Using Your Algebra Skills 5: Solving Systems of Linear Equations 5.7 Proving Quadrilateral Properties 6.1 Polygons-polygon, side, vertex, diagonal 6.2 Properties of Parallelograms-parallelogram 6.3 Showing Quadrilaterals are Parallelograms 6.4 Rhombuses, Rectangles, and Squares-rhombus, rectangle, square, kite, vertex angles, non-vertex angles 6.5 Trapezoids-trapezoid, base, leg, base angles, leg angles, isosceles trapezoid, midsegment of a triangle, midsegment of a trapezoid 6.6 Reasoning About Special Quadrilaterals 8.1 Classifying Polygons-convex, concave, equilateral polygon, equiangular polygon, regular polygon 8.2 Angles in Polygons-interior angle, exterior angle *Angles of Equiangular Polygons-EQUIANGULAR FORMULAS KCCT: Lesson 13 p 98, Lesson 17 p 122, Lesson 34 p 238 Ladders to Success: Topic 4 p 98, Topic 7 p 165, Topic 3 p 64, Topic 6 p 137: Core Content: 3.1.5(DOK 2), 3.4.1, 3.3.1, 5.3.3 Program of Studies: SM5, MPA 4, SR 7, SR 2, SR 1, FS 3, FS 1, FS 2, CG 8, SR 4, SR 13, FS 4 3.1.5 3.4.1 3.3.1 5.3.3 classify and apply properties of two-dimensional geometric figures (e.g., number of sides, vertices, length of sides, sum of interior and exterior angle measures). identify definitions, axioms and theorems, explain the necessity for them and give examples of them. apply algebraic concepts and graphing in the coordinate plane to analyze and solve problems (e.g., finding the final coordinates for a specified polygon, midpoints, betweenness of points, parallel and perpendicular lines, the distance between two points, the slope of a segment). model, solve and graph first degree, two-variable equations and inequalities in real-world and mathematical problems. 2 2 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 5: Right Triangles Essential Question: How can you use properties of right triangles, including the Pythagorean Theorem, to solve real world problems? Chapter: 9 9.1 The Theorem of Pythagoras-hypotenuse, leg, PYTHAGOREAN THEOREM 9.2 The Converse of the Pythagorean Theorem-pythagorean triples, converse Using Your Algebra Skills 8:Radical Expressions-radical, radicand 9.3 Two Special Right Triangles- 45-45-90 TRIANGLES, 30-60-90 TRIANGLES 9.4 Story Problems 9.5 Distance in Coordinate Geometry- DISTANCE FORMULA Optional Sections Exploration: A Pythagorean Fractal Exploration: Ladder Climb 9.6 Circles and the Pythagorean Theorem 4.4 The Pythagorean Theorem and the Distance Formula-leg, hypotenuse, PYTHAGOREAN THEOREM, DISTANCE FORMULA, Pythagorean triple 4.5 The Converse of the Pythagorean Theorem-converse 10.1 Simplifying Square Roots-radical, radicand 10.2 45-45-90 Triangles- 45-45-90 TRIANGLES 10.3 30-60-90 Triangles- 30-60-90 TRIANGLES KCCT: Lesson 10 p 73 Ladders to Success: Topic 5 p 108 Core Content: 2.1.3(DOK 3), 2.1.4, 1.3.1 Program of Studies: SM 5, MPA 1, MPA 6, MPA 7 2.1.3 2.1.4 1.3.1 apply definitions and properties of right triangle relationships (right triangle trigonometry and the Pythagorean theorem) to determine length and angle measures to solve real-world and mathematical problems. apply special right triangles and the converse of the Pythagorean theorem to solve real-world problems. solve real-world and mathematical problems to specified accuracy levels by simplifying expressions with real numbers involving addition, subtraction, multiplication, division, absolute value, integer exponents, roots (square, cube) and factorials. 3 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 6: Trigonometry Essential Question: How can you use trigonometric ratios to find missing lengths and angles of right triangles to solve real world problems? Chapter: 12 12.1 Trigonometric Ratios-trigonometry, trigonometric ratio, opposite, adjacent, tangent, sine, cosine, solve a right triangle, inverse tangent, inverse sine, inverse cosine 12.2 Problem Solving with Right Triangles-angle of elevation, angle of depression Optional Sections 12.3 The Law of Sines-LAW OF SINES, TRIANGLE AREA SAS 12.4 The Law of Cosines-PYTHAGOREAN IDENTITY, LAW OF COSINES 12.5 Problem Solving with Trigonometry Exploration: Indirect Measurement Exploration: Trigonometric Ratios and the Unit Circle Exploration: Three Types of Proofs 10.4 Tangent Ratio-trigonometry, trigonometric ratio, opposite, adjacent, tangent 10.5 Sine and Cosine Ratios-sine, cosine 10.6 Solving Right Triangles-solve a right triangle, inverse tangent, inverse sine, inverse cosine, angle of elevation, angle of depression Optional Sections *Law of Sines & Law of Cosines-LAW OF SINES, TRIANGLE AREA SAS, PYTHAGOREAN IDENTITY, LAW OF COSINES KCCT: Lesson 10 p 75 Ladders to Success: Topic 5 p 120-129 Core Content: 2.1.3(DOK 3), 1.3.1 Program of Studies: SM5, MPA 5, MPA 6, MPA 8 2.1.3 1.3.1 apply definitions and properties of right triangle relationships (right triangle trigonometry and the Pythagorean theorem) to determine length and angle measures to solve real-world and mathematical problems. solve real-world and mathematical problems to specified accuracy levels by simplifying expressions with real numbers involving addition, subtraction, multiplication, division, absolute value, integer exponents, roots (square, cube) and factorials. 3 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 7: Transformations Essential Question: How do you perform transformations algebraically or geometrically, including figures in a coordinate plane and how can you relate transformations to real world applications? Chapter: Chapter 7 ?0.1 Geometry in Nature and Art 7.1 Transformation and Symmetry-image, transformation, rigid transformation, isometry, nonridgid transformation, translation, distance, direction, translation vector, rotation, center of rotation, angle of rotation, line of reflection, reflectional symmetry, line of symmetry, rotational symmetry, point symmetry 7.2 Properties of Isometries- ordered pair rules 7.3 Compositions of Transformation *Dilations (11.1?)- dilation/enlargement, reduction/constriction Optional Sections 7.4 Tessellations with Regular Polygons 7.5 Tessellations with Nonregular Polygons 7.6 Tessellations Using Only Translations 7.7 Tessellations That Use Rotations 7.8 Tessellations That Use Glide Reflections Using Your Algebra Skills 7: Finding the Orthocenter and Centroid 3.7 Translations-translation, image, transformation, rigid transformation, isometry, distance, direction, translation vector, ordered pair rules 5.7 Reflections and Symmetry-reflection, line of symmetry, line of reflection, reflectional symmetry, point symmetry 11.8 Rotations-rotation, center of rotation, angle of rotation, rotational symmetry 7.6 Dilations- dilation, constriction, reduction, enlargement Optional Sections *Tessellations KCCT: Lesson 18 p 128 Ladders to Success: Topic 10 Core Content: 3.2.1(DOK 3) Program of Studies: SM 5, CG1, CG3, CG6 3.2.1 identify and describe properties of and apply geometric transformations within a plane to solve real-world and mathematical problems. 3 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 8: Perimeter and Area Essential Question: How do you find the perimeter and area of different two-dimensional and three- dimensional figures to solve real-world problems? Chapter: 8 8.1 Areas of Rectangles and Parallelograms-RECTANLGE, SQUARE, PARALLELOGRAM, base, height, altitude, area, square units 8.2 Areas of Triangles, Trapezoids, and Kites-TRIANGLE, TRAPEZOID, KITE, RHOMBUS 8.3 Area Problems 8.4 Areas of Regular Polygons-apothem, regular, AREA OF REGULAR POLYGONS ?1.6 Circles 8.5 Areas of Circles-circle, center, radius, diameter, circumference, CIRCUMFERENCE, CIRCLE, 8.6 Any Way You Slice It-SECTOR, sector, CENTRAL ANGLE, SEGMENT OF A CIRCLE 10.1 The Geometry of Solids-solid, polyhedron, face, edge, vertex, regular polyhedron, prism, base, lateral face, lateral edge, right prism, oblique prism, pyramid, sphere, hemisphere, great circle, cylinder, cone 8.7 Surface Area-surface area, slant height, PRISM, CYLINDER, PYRAMID, CONE 10.7 Surface Area of a Sphere-SPHERE Optional Sections Exploration: Pick’s Formula for Area Exploration: Geometric Probability II Exploration: Alternative Area Formulas Exploration: Euler/s Formula for Polyhedrons 8.3 Area of Squares and Rectangles-area, base, height, altitude, square units, SQUARE, RECTANGLE 8.4 Area of Triangles-TRIANGLE 8.5 Area of Parallelograms-PARALLELOGRAM, RHOMBUS, KITE 8.6 Area of Trapezoid-TRAPEZOID *Areas of Regular Polygons-regular, apothem, REGULAR POLYGON 8.7 Circumference and Area of Circles-circle, center, radius, diameter, circumference, central angle, sector, CIRCUMFERENCE, CIRCLE, SECTOR, segment of a circle, annulus 9.1 Solid Figures-solid, polyhedron, base, face, edge, vertex, regular polyhedron 9.2 Surface Area of Prisms and Cylinders-prism, right prism, oblique prism, surface area, lateral face, lateral edge, lateral area, cylinder, PRISM, CYLINDER 9.3 Surface Area of Pyramids and Cones-pyramid, slant height, cone, PYRAMID, CONE *9.6 Surface Area and Volume of Spheres (cover Surface Area only for now)-sphere, hemisphere, great circle, SPHERE KCCT: Lesson 8 p 60, Lesson 9 p 67, Lesson 15 p 110 Ladders to Success: Core Content: 2.1.1(DOK2), 3.1.11, 2.1.2, 3.1.9 Program of Studies: SM 5, MPA 4, SM 1, SM 2, SR 7, SR 9, SR 8, SR 10, CG 7, SR 11 2.1.1 3.1.11 2.1.2 3.1.9 determine the surface area and volume of right rectangular prisms, pyramids, cylinders, cones and spheres in real-world and mathematical problems. visualize solids and surfaces in three-dimensional space when given two-dimensional representations (e.g., nets, multiple views) and create two-dimensional representations for the surfaces of three-dimensional objects. describe how a change in one or more dimensions of a geometric figure affects the perimeter, area and volume of the figure. classify and apply properties of three-dimensional geometric figures. 2 3 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. Geometry Unit 9: Volume Essential Question: How do you find the volume of three-dimensional figures to solve real world problems? Chapter: 10 10.2 Volume of Prisms and Cylinders-volume, PRISM, CYLINDER 10.3 Volume of Pyramids and Cones-PYRAMID, CONE 10.4 Volume Problems 10.6 Volume of a Sphere-SPHERE Optional Sections Exploration: The Five Platonic Solids 10.5 Displacement and Density Exploration: Orthographic Drawing Exploration: Sherlock Holmes and Forms of Valid Reasoning 9.4 Volume of Prisms and Cylinders-volume, PRISM, CYLINDER 9.5 Volume of Pyramids and Cones-PYRAMID, CONE *9.6 Surface Area and Volume of Spheres (cover volume only)-SPHERE KCCT: Lesson 8 p 60, Lesson 9 p 67 Ladders to Success: Core Content: 2.1.2 (DOK 3), 3.1.9(DOK 2), 3.1.10, 3.1.11, 2.1.1 Program of Studies: SM 4, MPA 3, SR 7, SR 8, SR 9, SR 10, CG 7, SR 11 2.1.2 3.1.9 3.1.10 3.1.11 2.1.1 describe how a change in one or more dimensions of a geometric figure affects the perimeter, area and volume of the figure. classify and apply properties of three-dimensional geometric figures. describe the intersection of a plane with a three-dimensional figure. visualize solids and surfaces in three-dimensional space when given two-dimensional representations (e.g., nets, multiple views) and create two-dimensional representations for the surfaces of three-dimensional objects. determine the surface area and volume of right rectangular prisms, pyramids, cylinders, cones and spheres in real-world and mathematical problems. 3 2 2 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 10: Similarity Essential Question: How do you use similarity of figures to solve real world problems? Chapter: 11 11.1 Similar Polygons-similar polygons (figures), ratio, proportion, means, extremes, scale factor, dilation 11.2 Similar Triangles-AA, SSS, SAS, triangle midsegment 11.3 Indirect Measurement with Similar Triangles-indirect measurement Optional sections Exploration: Construction a Dilation Design 11.4 Corresponding Parts of Similar Triangles 11.5 Proportions with Area and Volume Exploration: Why Elephants Have Big Ears 11.6 Proportional Segments Between Parallel Lines Exploration: Two More Forms of Valid Reasoning 7.1 Ratio and Proportion-ratio, proportion, means, extremes 7.2 Similar Polygons-similar polygons (figures), scale factor, dilations 7.3 Showing Triangles are Similar: AA- AA, indirect measurement 7.4 Showing Triangles are Similar: SSS and SAS- SSS, SAS 7.5 Proportions and Similar Triangles-triangle midsegment KCCT: Chapter 2, Lesson 12 Other: Core Content: 3.1.12(DOK 3), 3.1.13 Program of Studies: SM 5, SM 3, SR 4 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS. GEOMETRY Unit 11: Properties of Circles Essential Question: How do you use properties of circles to find missing lengths of segments and angles? Chapter: 6 6.1 Chord Properties-congruent circles, concentric circles, radius, diameter, chord, tangent, point of tangency, minor arc, major arc, semicircle, central angle, intercepted arc 6.2 Tangent Properties-tangent segments, externally tangent, internally tangent 6.3 Arcs and Angles-inscribed angle, secant, congruent arcs, inscribed, circumscribed ?6.5 The Circumference/Diameter Ratio-circumference 6.7 Arc Length-arc length, ARC LENGTH FORMULA ?9.6 Circles and the Pythagorean Theorem Optional Sections 6.4 Proving Circle Conjectures 6.6 Around the World Using Your Algebra Skills 6: Finding the Circumcenter Exploration: Cycloids *Angles and Segments formed by Chords, Tangents, and Secants 11.1 Parts of a Circle-chord, diameter, radius, secant, tangent, point of tangency, concentric circles 11.2 Properties of Tangents-tangent segment, externally tangent, internally tangent 11.3 Arcs and Central Angles-central angle, minor arc, major arc, semicircle, congruent circles, congruent arcs, arc length, ARC LENGTH FORMULA 11.4 Arcs and Chords 11.5 Inscribed Angles and Polygons-inscribed angle, intercepted arc, inscribed, circumscribed 11.6 Properties of Chords 11.7 Equations of Circles-EQUATION OF A CIRCLE Optional Sections *Angles and Segments formed by Chords, Tangents, and Secants KCCT: Other: Core Content: 3.1.6 Program of Studies: SR 5, CG 4 Key: blue is geometry, green is basic geometry, underlined are definitions to add, * is an addition or deletion, CAPITALS ARE FORUMLAS.