1.1.1: Geometric Constructions
1.1.1.1: [RIT 257 - 257] Identifies the geometric construction of an angle bisector
Constructing Parallel and Perpendicular Lines
1.1.1.2: [RIT 263 - 263] Identifies the geometric construction of a line segment bisector or the midpoint of a line segment
Constructing Parallel and Perpendicular Lines
1.1.2: Points, Lines, Segments, Rays, and Angles
1.1.2.1: [RIT 186 - 207] Identifies right angles
1.1.2.2: [RIT 193 - 196] Identifies parallel lines
Parallel, Intersecting, and Skew Lines
1.1.2.3: [RIT 202 - 215] Identifies points, lines, rays, line segments, and angles
Parallel, Intersecting, and Skew Lines
1.1.2.4: [RIT 202 - 209] Identifies acute or obtuse angles
1.1.2.5: [RIT 203 - 203] Knows the definition of an acute angle
1.1.2.6: [RIT 213 - 239] Identifies perpendicular lines involving real-world objects
Constructing Parallel and Perpendicular Lines
1.1.2.7: [RIT 226 - 240] Knows the definition of an angle
1.1.2.8: [RIT 236 - 237] Identifies perpendicular lines
Constructing Parallel and Perpendicular Lines
1.1.2.9: [RIT 248 - 248] Defines midpoints of line segments
1.1.2.10: [RIT 275 - 275] Defines bisectors of line segments
1.1.3: Angle Measurement
1.1.3.1: [RIT 187 - 239] Calculates unknown angle measures using the additive property of angles
1.1.3.2: [RIT 211 - 222] Measures non-right angles using a protractor
1.1.4: Relationships involving Lines, Angles, and Polygons
1.1.4.1: [RIT 215 - 258] Calculates unknown angle measures using the properties of complementary, supplementary, and vertical angles
1.1.4.2: [RIT 226 - 257] Solves problems involving parallel lines cut by a transversal
1.1.4.3: [RIT 240 - 240] Defines complementary and supplementary angles
1.1.4.4: [RIT 245 - 249] Identifies corresponding, alternate interior, and alternate exterior angles
1.1.4.5: [RIT 248 - 258] Identifies complementary and supplementary angles
1.1.4.6: [RIT 253 - 267] Determines the conditions necessary to show that two lines are parallel
Constructing Parallel and Perpendicular Lines
1.1.4.7: [RIT 269 - 269] Identifies vertical angles
1.2.1: Circles
1.2.1.1: [RIT 208 - 208] Knows the number of degrees in a circle
1.2.1.2: [RIT 218 - 231] Identifies radii and diameters of circles
Circumference and Area of Circles
1.2.1.3: [RIT 236 - 236] Recognizes the relationship between the diameter and the radius of a circle
Circumference and Area of Circles
1.2.1.5: [RIT 242 - 292] Uses properties of central and inscribed angles to solve problems involving circles
Chords and Arcs
Inscribed Angles
1.2.1.6: [RIT 243 - 271] Solves problems involving inscribed angles on a diameter
1.2.1.7: [RIT 250 - 263] Understands that the ratio between the circumference and the diameter of a circle is equal to pi
Circumference and Area of Circles
1.2.1.8: [RIT 256 - 271] Uses properties of chords to solve problems involving circles
1.2.1.11: [RIT 263 - 263] Recognizes a precise definition of circles
1.2.1.12: [RIT 263 - 274] Calculates arc lengths
Chords and Arcs
Inscribed Angles
1.2.1.14: [RIT 266 - 266] Solves problems involving arc measures of a circle
1.2.2: Identification and Classification of 2-D Shapes
1.2.2.1: [RIT 210 - 260] Knows properties of parallelograms, including special parallelograms such as squares, rhombuses, etc.
1.2.2.2: [RIT 213 - 245] Knows properties of special triangles, such as acute, right, scalene, etc.
1.2.3: Perimeter/Circumference
1.2.3.1: [RIT 250 - 250] Understands that the ratio between the circumference and the diameter of a circle is equal to pi
Circumference and Area of Circles
1.2.4: Relationships involving Lines, Angles, and Polygons
1.2.4.1: [RIT 194 - 194] Identifies diagonals of polygons
1.2.4.2: [RIT 220 - 250] Applies the formula for the sum of the interior angles of a polygon
1.2.4.3: [RIT 221 - 233] Applies the Triangle Angle-Sum Theorem to determine the measure of an unknown angle
1.2.4.4: [RIT 223 - 241] Recognizes that the sum of the interior angles of a triangle is 180 degrees
Polygon Angle Sum
Triangle Angle Sum
1.2.4.5: [RIT 228 - 250] Applies properties of isosceles triangles to determine the measure of an unknown angle
Isosceles and Equilateral Triangles
1.2.4.7: [RIT 237 - 268] Solves problems by applying multiple properties of angles, including interior and exterior angles of triangles; complementary, supplementary, and vertical angles; and angles created by perpendicular lines or parallel lines cut by a transversal
Investigating Angle Theorems
Triangle Angle Sum
1.2.4.9: [RIT 240 - 240] Determines the number of diagonals that can be drawn from one vertex in a polygon
1.2.4.10: [RIT 241 - 276] Applies the Triangle Inequality Theorem
1.2.4.11: [RIT 242 - 242] Applies the Triangle Exterior Angle Theorem to determine the measure of an unknown angle
1.2.4.12: [RIT 256 - 258] Applies the formula for the measure of each exterior angle of a regular polygon
1.2.4.14: [RIT 269 - 269] Applies the formula for the measure of each interior angle of a regular polygon
1.3.1: Identification and Classification of 3-D Shapes
1.3.1.1: [RIT 191 - 223] Identifies faces, bases, edges, or vertices of 3-D shapes
Prisms and Cylinders
Pyramids and Cones
Surface and Lateral Areas of Prisms and Cylinders
Surface and Lateral Areas of Pyramids and Cones
1.3.1.2: [RIT 195 - 210] Describes cones, cylinders, and spheres based on the shape of surfaces and/or number of bases or vertices, without pictures given
Prisms and Cylinders
Pyramids and Cones
1.3.1.5: [RIT 241 - 241] Identifies and names polyhedrons
Prisms and Cylinders
Pyramids and Cones
Surface and Lateral Areas of Prisms and Cylinders
Surface and Lateral Areas of Pyramids and Cones
1.3.2: Spatial Concepts and Symmetry
1.3.2.1: [RIT 175 - 208] Identifies multiple views of structures composed of cubes
1.3.2.2: [RIT 184 - 229] Identifies and creates nets for prisms
Surface and Lateral Areas of Prisms and Cylinders
1.3.2.3: [RIT 186 - 202] Identifies and creates nets for pyramids
Surface and Lateral Areas of Pyramids and Cones
1.3.2.4: [RIT 190 - 241] Identifies and creates nets for cones
Surface and Lateral Areas of Pyramids and Cones
1.3.2.5: [RIT 209 - 249] Identifies single views of structures composed of cubes
1.3.2.6: [RIT 212 - 236] Identifies and creates nets for cylinders
Surface and Lateral Areas of Prisms and Cylinders
1.3.2.7: [RIT 216 - 216] Identifies single views of 3-D shapes
1.3.2.8: [RIT 244 - 270] Identifies the cross-sections of 3-D shapes
2.1.1: Perimeter/Circumference
2.1.1.1: [RIT 200 - 245] Solves problems involving perimeters of rectangles within a real-world or mathematical context
Fido's Flower Bed (Perimeter and Area)
Perimeter and Area of Rectangles
2.1.1.2: [RIT 209 - 230] Determines side lengths given the perimeter of rectangles
Perimeter and Area of Rectangles
2.1.1.3: [RIT 213 - 239] Determines the circumference of circles, given the formula
Circumference and Area of Circles
2.1.1.4: [RIT 220 - 238] Solves problems involving decimals and perimeters of rectangles within a real-world or mathematical context
Perimeter and Area of Rectangles
2.1.1.5: [RIT 222 - 251] Determines the circumference of circles, formula not provided
Circumference and Area of Circles
2.1.1.7: [RIT 231 - 231] Determines the ratio between perimeters of scaled figures
Perimeters and Areas of Similar Figures
2.1.1.8: [RIT 232 - 240] Describes the effect on perimeter when dimensions of a non-rectangular polygon are changed
Perimeters and Areas of Similar Figures
2.1.1.9: [RIT 233 - 244] Identifies the formula for the perimeter of a polygon
Perimeter and Area of Rectangles
2.1.1.10: [RIT 248 - 248] Solves problems involving perimeters of non-rectangular polygons within a real-world or mathematical context
Fido's Flower Bed (Perimeter and Area)
2.2.1: Area
2.2.1.1: [RIT 200 - 222] Determines the area of rectangles with whole-number sides, given the formula
Multiplying Decimals (Area Model)
Perimeter and Area of Rectangles
2.2.1.2: [RIT 201 - 224] Determines the area of rectangles with whole-number sides, formula not provided
Multiplying Decimals (Area Model)
Perimeter and Area of Rectangles
2.2.1.3: [RIT 206 - 224] Determines side lengths given the area of rectangles
Perimeter and Area of Rectangles
2.2.1.4: [RIT 206 - 226] Determines the area of figures composed of whole and partial unit squares
Multiplying Decimals (Area Model)
Multiplying with Decimals
2.2.1.5: [RIT 209 - 238] Solves problems involving areas of rectangles within a real-world or mathematical context
Chocomatic (Multiplication, Arrays, and Area)
Multiplying Decimals (Area Model)
Multiplying with Decimals
Perimeter and Area of Rectangles
2.2.1.6: [RIT 213 - 250] Determines the area of parallelograms, formula not provided
2.2.1.8: [RIT 223 - 245] Solves problems involving both area and perimeter of rectangles within a real-world or mathematical context
Fido's Flower Bed (Perimeter and Area)
Perimeter and Area of Rectangles
2.2.1.9: [RIT 223 - 242] Determines the area of rectangles with decimal sides, formula not provided
Perimeter and Area of Rectangles
2.2.1.10: [RIT 224 - 257] Describes the effect on area when dimensions of a rectangle are changed
Perimeter and Area of Rectangles
2.2.1.11: [RIT 224 - 224] Determines the base or height given the area of a parallelogram
2.2.1.12: [RIT 224 - 252] Describes the effect on area when dimensions of a triangle are changed
2.2.1.14: [RIT 228 - 267] Solves problems involving areas of figures composed of polygons within a real-world or mathematical context
Area of Parallelograms
Area of Triangles
Chocomatic (Multiplication, Arrays, and Area)
Fido's Flower Bed (Perimeter and Area)
Perimeter and Area of Rectangles
2.2.1.16: [RIT 230 - 235] Determines the area of triangles, given the formula
2.2.1.18: [RIT 232 - 232] Identifies the formula for the area of a circle
Circumference and Area of Circles
2.2.1.19: [RIT 234 - 239] Determines the area of circles, given the formula
Circumference and Area of Circles
2.2.1.20: [RIT 235 - 260] Determines the perimeter of rectangles given the area
Fido's Flower Bed (Perimeter and Area)
2.2.1.21: [RIT 236 - 254] Determines the area of triangles, formula not provided
2.2.1.22: [RIT 236 - 260] Determines the area of figures composed of polygons
Area of Parallelograms
Area of Triangles
Chocomatic (Multiplication, Arrays, and Area)
Fido's Flower Bed (Perimeter and Area)
2.2.1.23: [RIT 237 - 250] Determines the area of rectangles given the perimeter
Perimeter and Area of Rectangles
2.2.1.24: [RIT 240 - 269] Determines the ratio between areas of scaled figures
Perimeters and Areas of Similar Figures
2.2.1.27: [RIT 244 - 260] Determines the circumference given the area of a circle
Circumference and Area of Circles
2.2.1.29: [RIT 247 - 247] Determines the radius or diameter given the area of a circle
Circumference and Area of Circles
2.2.1.30: [RIT 249 - 257] Determines the area of circles, formula not provided
Circumference and Area of Circles
2.2.1.31: [RIT 251 - 251] Determines the area of figures composed of polygons and circles
Circumference and Area of Circles
2.2.1.34: [RIT 260 - 270] Describes the effect on area when the radius or diameter of a circle is changed
Circumference and Area of Circles
2.2.1.35: [RIT 261 - 261] Describes the effect on area when the circumference of a circle is changed
Circumference and Area of Circles
2.2.1.36: [RIT 265 - 265] Solves problems involving areas of circles within a real-world or mathematical context
Circumference and Area of Circles
2.2.3: Surface Area
2.2.3.1: [RIT 236 - 248] Uses the net of a prism to solve surface area problems within a real-world or mathematical context
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.2: [RIT 238 - 261] Determines the surface area of rectangular prisms or cubes, formula not provided
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.4: [RIT 241 - 241] Determines the surface area of cylinders, given the formula
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.5: [RIT 241 - 248] Determines the surface area of a prism given a net
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.6: [RIT 246 - 246] Determines the surface area of cones, given the formula
Surface and Lateral Areas of Pyramids and Cones
2.2.3.7: [RIT 251 - 252] Determines the surface area of pyramids, given the formula
Surface and Lateral Areas of Pyramids and Cones
2.2.3.8: [RIT 252 - 252] Determines the surface area of triangular prisms, formula not provided
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.9: [RIT 252 - 256] Determines the surface area of pyramids, formula not provided
Surface and Lateral Areas of Pyramids and Cones
2.2.3.10: [RIT 255 - 263] Describes the effect on surface area when dimensions of a rectangular prism are changed
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.12: [RIT 260 - 263] Solves problems involving surface areas of prisms within a real-world or mathematical context
Surface and Lateral Areas of Prisms and Cylinders
2.2.3.13: [RIT 266 - 269] Determines the surface area of cylinders, formula not provided
Surface and Lateral Areas of Prisms and Cylinders
2.2.4: Perimeter/Circumference
2.2.4.1: [RIT 244 - 244] Determines the circumference given the area of a circle
Circumference and Area of Circles
2.2.5: Problem Solving with Units
2.2.5.1: [RIT 265 - 265] Solves problems involving areas of circles within a real-world or mathematical context
Circumference and Area of Circles
2.3.1: Conversion of Units
2.3.1.1: [RIT 282 - 282] Converts units of volume within the same measurement system
Unit Conversions
Unit Conversions 2 - Scientific Notation and Significant Digits
2.3.2: Volume
2.3.2.1: [RIT 206 - 229] Determines the volume of rectangular prisms, given the formula
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.2: [RIT 206 - 225] Determines the volume of figures by counting unit cubes
Balancing Blocks (Volume)
Measuring Volume
2.3.2.3: [RIT 207 - 241] Determines the volume of rectangular prisms, formula not provided
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.4: [RIT 218 - 218] Solves problems involving rectangular prisms composed of unit cubes
Balancing Blocks (Volume)
Measuring Volume
2.3.2.5: [RIT 220 - 264] Solves problems involving volumes of rectangular prisms within a real-world or mathematical context
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.6: [RIT 226 - 226] Identifies the formula for the volume of a rectangular prism
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.7: [RIT 227 - 244] Identifies units for measuring volume
Measuring Volume
Prisms and Cylinders
Pyramids and Cones
2.3.2.9: [RIT 231 - 253] Determines the volume of figures composed of rectangular prisms
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.11: [RIT 235 - 268] Determines the volume of pyramids, given the formula
2.3.2.12: [RIT 237 - 240] Determines the volume of cylinders, given the formula
2.3.2.13: [RIT 239 - 273] Describes the effect on volume when dimensions of a rectangular prism are changed
2.3.2.15: [RIT 245 - 245] Determines the volume of spheres, given the formula
2.3.2.16: [RIT 250 - 275] Determines the volume of cylinders, formula not provided
2.3.2.19: [RIT 254 - 274] Determines the volume of pyramids, formula not provided
2.3.2.21: [RIT 258 - 258] Determines the radius or diameter of a cylinder given the volume and height
2.3.2.26: [RIT 266 - 266] Solves problems involving volumes of 3-D figures composed of cones, cylinders, and spheres within a real-world or mathematical context
Measuring Volume
Prisms and Cylinders
Pyramids and Cones
2.3.2.27: [RIT 266 - 266] Determines the volume of figures composed of rectangular and triangular prisms
Balancing Blocks (Volume)
Measuring Volume
Prisms and Cylinders
2.3.2.29: [RIT 269 - 281] Understands that the volume of a cone is one-third the volume of a cylinder with the same base area and height
2.3.2.30: [RIT 270 - 270] Determines the volume of spheres, formula not provided
2.3.2.31: [RIT 273 - 273] Determines the volume of cones, formula not provided
2.3.2.32: [RIT 276 - 276] Solves problems involving volumes of cones within a real-world or mathematical context
2.3.2.33: [RIT 278 - 278] Solves problems involving volumes of cylinders within a real-world or mathematical context
3.1.1: Congruence
3.1.1.1: [RIT 184 - 184] Identifies congruent shapes, given informal language
3.1.1.2: [RIT 186 - 230] Identifies congruent shapes, given formal language
3.1.1.3: [RIT 194 - 206] Identifies corresponding sides and angles in congruent figures
3.1.1.8: [RIT 251 - 255] Identifies congruent triangles using AAS, ASA, SAS, or SSS
Congruence in Right Triangles
Proving Triangles Congruent
3.1.1.9: [RIT 252 - 284] Identifies the congruence postulate that proves two triangles are congruent
Congruence in Right Triangles
Proving Triangles Congruent
3.1.1.11: [RIT 262 - 262] Determines the conditions necessary to prove two triangles are congruent
Congruence in Right Triangles
Proving Triangles Congruent
3.1.2: Identification and Classification of 2-D Shapes
3.1.2.1: [RIT 230 - 230] Identifies congruent shapes, given formal language
3.1.3: Similarity
3.1.3.1: [RIT 180 - 181] Identifies similar figures
Similar Figures
Similarity in Right Triangles
3.1.3.2: [RIT 204 - 253] Applies scale factors to solve problems involving scale drawings, maps, and models
Dilations
Perimeters and Areas of Similar Figures
Similar Figures
3.1.3.3: [RIT 212 - 212] Determines scale factors in problems involving scale drawings, maps, and models
Dilations
Perimeters and Areas of Similar Figures
Similar Figures
3.1.3.4: [RIT 212 - 260] Determines lengths of corresponding sides in similar figures
Similar Figures
Similarity in Right Triangles
3.1.3.5: [RIT 213 - 226] Identifies corresponding sides and angles in similar figures
Similar Figures
Similarity in Right Triangles
3.1.3.6: [RIT 215 - 249] Applies properties of similar triangles to solve real-world problems involving indirect measurements
3.1.3.7: [RIT 220 - 220] Knows the definition of similarity
Similar Figures
Similarity in Right Triangles
3.1.3.8: [RIT 223 - 239] Determines scale factors in problems involving scale drawings of geometric figures
Dilations
Perimeters and Areas of Similar Figures
Similar Figures
3.1.3.10: [RIT 224 - 224] Determines the ratio between perimeters of similar figures
Perimeters and Areas of Similar Figures
3.1.3.11: [RIT 225 - 252] Applies scale factors to solve problems involving scale drawings of geometric figures
Dilations
Perimeters and Areas of Similar Figures
Similar Figures
3.1.3.12: [RIT 228 - 276] Determines the conditions necessary to prove two triangles are similar
3.1.3.13: [RIT 232 - 257] Applies properties of similar figures to determine a perimeter
Perimeters and Areas of Similar Figures
3.1.3.15: [RIT 235 - 235] Applies properties of similar figures to determine an area
Perimeters and Areas of Similar Figures
3.1.3.16: [RIT 239 - 239] Identifies the proportion of corresponding sides of similar figures
3.1.3.17: [RIT 244 - 263] Applies similarity postulates to solve for missing lengths and angles
3.1.3.18: [RIT 247 - 247] Applies similarity postulates to identify corresponding sides and angles
3.1.3.20: [RIT 256 - 256] Identifies similar triangles using AA
Proving Triangles Congruent
Similarity in Right Triangles
3.1.3.22: [RIT 260 - 279] Applies the geometric mean to solve for missing lengths and angles in triangles
3.1.3.23: [RIT 268 - 271] Identifies the similarity postulate that proves two triangles are similar
3.1.3.26: [RIT 285 - 286] Determines the ratio between areas of similar figures
Perimeters and Areas of Similar Figures
3.1.3.27: [RIT 288 - 288] Solves problems involving multiple theorems of similar triangles, including the Triangle Proportionality Theorem, segment proportionality property for parallel lines, and similarity postulates
3.1.4: Geometric Proof/Logic/Inductive and Deductive Reasoning
3.1.4.1: [RIT 228 - 276] Determines the conditions necessary to prove two triangles are similar
3.1.4.2: [RIT 252 - 284] Identifies the congruence postulate that proves two triangles are congruent
Congruence in Right Triangles
Proving Triangles Congruent
3.1.4.3: [RIT 262 - 262] Determines the conditions necessary to prove two triangles are congruent
Congruence in Right Triangles
Proving Triangles Congruent
3.1.4.4: [RIT 268 - 271] Identifies the similarity postulate that proves two triangles are similar
3.2.1: Pythagorean Theorem
3.2.1.1: [RIT 241 - 275] Uses the Pythagorean Theorem to solve real-world or mathematical problems
Pythagorean Theorem
Pythagorean Theorem with a Geoboard
3.2.1.2: [RIT 242 - 266] Uses the Pythagorean Theorem to calculate the length of a missing side of a right triangle
Pythagorean Theorem
Pythagorean Theorem with a Geoboard
3.2.1.3: [RIT 253 - 268] Applies the converse of the Pythagorean Theorem to identify right triangles
Pythagorean Theorem
Pythagorean Theorem with a Geoboard
3.2.2: Trigonometry
3.2.2.1: [RIT 241 - 263] Represents the sine of an angle as a ratio of sides in a right triangle
Sine Function
Sine, Cosine, and Tangent Ratios
3.2.2.2: [RIT 246 - 266] Represents the tangent of an angle as a ratio of sides in a right triangle
Sine, Cosine, and Tangent Ratios
Tangent Function
3.2.2.3: [RIT 247 - 263] Represents the cosine of an angle as a ratio of sides in a right triangle
Cosine Function
Sine, Cosine, and Tangent Ratios
3.2.2.4: [RIT 250 - 270] Uses sine, cosine, or tangent to determine the length of a side in a right triangle
Sine, Cosine, and Tangent Ratios
3.2.2.6: [RIT 263 - 273] Uses sine, cosine, and tangent to determine lengths to solve real-world and mathematical problems
Sine, Cosine, and Tangent Ratios
3.2.3: Relationships involving Lines, Angles, and Polygons
3.2.3.1: [RIT 255 - 279] Uses the 45-45-90 and 30-60-90 right triangle relationships to solve real-world and mathematical problems
Cosine Function
Sine Function
Tangent Function
3.2.3.2: [RIT 258 - 279] Uses the 45-45-90 and 30-60-90 right triangle relationships to calculate the length of a missing side of a right triangle
Cosine Function
Sine Function
Tangent Function
3.3.2: Spatial Concepts and Symmetry
3.3.2.1: [RIT 165 - 228] Determines the number of lines of symmetry in 2-D figures
Holiday Snowflake Designer
Quilting Bee (Symmetry)
3.3.2.2: [RIT 206 - 217] Identifies 2-D figures which have rotational symmetry
3.3.2.4: [RIT 275 - 284] Identifies the rotational or reflectional symmetry of a shape
3.3.3: Transformations
3.3.3.1: [RIT 177 - 226] Performs a slide, flip, or turn without using a grid
Reflections
Rotations, Reflections, and Translations
3.3.3.2: [RIT 197 - 225] Performs a translation, reflection, or rotation, without the coordinate plane
Reflections
Rotations, Reflections, and Translations
3.3.3.3: [RIT 198 - 227] Describes a single transformation that will map one figure onto another, without the coordinate plane
Reflections
Rotations, Reflections, and Translations
Translations
3.3.3.4: [RIT 199 - 220] Identifies a slide, flip, or turn that will carry a given figure onto another, without a grid
3.3.3.5: [RIT 214 - 214] Identifies the degree of rotation that shows that two given figures are congruent, without a coordinate plane
3.3.3.6: [RIT 214 - 221] Identifies the degree of rotation that will map one figure onto another, without the coordinate plane
3.3.3.8: [RIT 219 - 232] Understands that rigid transformations preserve congruency
Reflections
Rock Art (Transformations)
Rotations, Reflections, and Translations
Translations
3.3.3.9: [RIT 221 - 254] Determines the image of a polygon on a coordinate plane after a reflection or a series of reflections
Rotations, Reflections, and Translations
3.3.3.10: [RIT 223 - 254] Determines the coordinates of the vertices of a polygon after a dilation or a series of dilations, with center at the origin
3.3.3.11: [RIT 225 - 228] Determines the coordinates of the vertices of a polygon after a translation or a series of translations
3.3.3.12: [RIT 226 - 226] Determines the image of a polygon on a coordinate plane after a rotation or a series of rotations
Rotations, Reflections, and Translations
3.3.3.14: [RIT 231 - 259] Determines the coordinates of the vertices of a polygon after a reflection or a series of reflections
Rotations, Reflections, and Translations
3.3.3.15: [RIT 231 - 242] Describes the effects of dilation on lengths and angle measures
3.3.3.16: [RIT 232 - 255] Describes a single transformation that will map one figure onto itself, without the coordinate plane
3.3.3.17: [RIT 233 - 239] Performs a series of translations, reflections, and rotations, without the coordinate plane
Rotations, Reflections, and Translations
3.3.3.18: [RIT 235 - 271] Determines the coordinates of the vertices of a polygon after a rotation or a series of rotations
Rotations, Reflections, and Translations
3.3.3.19: [RIT 237 - 239] Describes a series of transformations that show two shapes are congruent on the coordinate plane
Rotations, Reflections, and Translations
3.3.3.20: [RIT 239 - 239] Represents translations in the plane using matrices
3.3.3.21: [RIT 240 - 240] Determines the image of a translation represented in coordinate notation
3.3.3.24: [RIT 243 - 243] Describes a single transformation that shows two shapes are congruent on the coordinate plane
Rotations, Reflections, and Translations
Translations
3.3.3.25: [RIT 249 - 263] Describes a translation using coordinate notation
3.3.3.26: [RIT 250 - 250] Determines the image of a polygon on a coordinate plane after a series of translations, reflections, or rotations
Rotations, Reflections, and Translations
3.3.3.27: [RIT 251 - 251] Determines the image of a dilation represented in coordinate notation
3.3.3.28: [RIT 252 - 252] Identifies the center and scale factor used in a dilation represented in the coordinate plane
3.3.3.29: [RIT 253 - 253] Applies the scale factor in a dilation to solve for unknown lengths
3.3.3.31: [RIT 264 - 264] Determines the image of a reflection represented in coordinate notation
Rotations, Reflections, and Translations
3.4.1: Coordinate Geometry
3.4.1.1: [RIT 181 - 229] Determines the coordinates of points in all four quadrants of a coordinate graph
Points in the Coordinate Plane
3.4.1.2: [RIT 187 - 208] Interprets points with whole number coordinates in the first quadrant within the given context
City Tour (Coordinates)
Elevator Operator (Line Graphs)
Points in the Coordinate Plane
Points, Lines, and Equations
3.4.1.3: [RIT 198 - 221] Determines the coordinates of points in the first quadrant of a coordinate plane
City Tour (Coordinates)
Elevator Operator (Line Graphs)
Points in the Coordinate Plane
Points, Lines, and Equations
3.4.1.4: [RIT 201 - 218] Counts to find the distance between points on the coordinate plane
3.4.1.6: [RIT 203 - 215] Plots the coordinates of points in the first quadrant of a coordinate plane
City Tour (Coordinates)
Points in the Coordinate Plane
Points, Lines, and Equations
3.4.1.7: [RIT 205 - 232] Determines the distance between two points with the same first or second coordinate
Distance Formula
Points in the Coordinate Plane
3.4.1.8: [RIT 214 - 235] Determines the coordinates of missing vertices of geometric figures in the first quadrant given the coordinates of the other vertices
Points in the Coordinate Plane
3.4.1.9: [RIT 215 - 236] Plots points in all four quadrants of a coordinate plane
Points in the Coordinate Plane
3.4.1.12: [RIT 242 - 268] Determines the distance between two points on the coordinate plane
3.4.1.15: [RIT 251 - 280] Identifies collinear points
Content correlation last revised: 9/22/2021