Unit 1: Relationships Between Quantities N. Q. 1-3: Quantities and Units Convert 8 miles to yards. 14080 yards
A strong positive, B weak positive, C weak neg, D fairly strong neg, E weak neg, F no correlation
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A strong positive, B weak positive, C weak neg, D fairly strong neg, E weak neg, F no correlation Unit 5: Transformations in the Coordinate Plane G.CO.1, 2, 3, 4, 5: Experiment with Transformations in the Plane 199. Draw the image of this figure reflected across the x-axis. 200. Draw the image of this figure reflected across y = 3.
201. Draw the image of this figure reflected 202. Draw the image of the figure using the translation across y = 1. (x, y) (x + 4, y = 2)
a) (x, y) (x – 2, y + 5) b) (x, y) (-x, -y)  
translation reflection over x and y axis, or rotate 180 c) (x, y) (-x, y) d) (x, y) (x + 1, y + 4)  
reflection over y-axis translation right 1 and up 4 204. Specify a sequence of transformations that will map the pre-image onto the image. a) reflect over x = -2 b) reflect over x = 2
c) rotate 180 d) translate down 2 and right 4  
205. Which transformation(s) map the hexagon onto itself? (think reflections and rotations) 
reflect over x and y-axis, or rotate 60o 206. Which transformation maps the trapezoid onto itself? 
reflection over y-axis, rotate 360o 207. IF the parallelogram below were translated 3 units left and 6 units down, what would be the coordinates of the new image W’X’Y’Z’?  W’ (-2, -1) X’ (0, 3) Y’ (5, 3) Z’ (3, -1)
208. To plan a scene in an animated movie, Roger rotates the below figure around point P by 90° in a clockwise direction. Which drawing shows the pre-image and the final image? B 
a.  b. c. 
209. Use the diagram to answer the questions. a) If X is reflected across line 3, where will it end up ? B b) What sequence of transformations will map figure A onto figure B ? reflect over 5, then reflect over 3 c) What sequence of transformations will map figure D onto figure C ? rotate 180, then translate 2 over d) If X is reflected across line 3 and then translated to the right, where will it be? C 210. Which translation moves ABC to A’B’C’? 211. Which figure represents a rotation of figure 1? 
 
translate down 4 and right 8 Figure 3 212. Draw the image of this figure if it is reflected across the y-axis, and then reflected over the x-axis.  
Unit 6 : Connecting Algebra and Geometry Through Coordinates G.GPE.4, 5, 6, 7- Use coordinates to prove simple geometric theorems algebraically 213. Line m is represented by the equation y = 2x + 3. What is the equation of the line that is perpendicular to line m and passes through the point (-6, 1) ? y = -1/2x - 2 214. Given line l is y = 4x + 3, what is the equation of the line that is perpendicular to line l and runs through the point (2, -7) ? y = -1/4x – 6.5 or y = -1/4x – 13/2 215. Write an equation of the line that is perpendicular to the line y = 2x + 8 and passes through the point (6, -2) . y = -1/2x + 1 216. What is the equation of the line that is parallel to the line 5x + 20y = 10 and passes through the point (8, 3) ? y = -1/4x + 5 217. Write an equation of the line that is parallel to the line 2x + 4y = 6 and goes through the point (6, 4). y = -1/2x + 7 218. Write an equation for the perpendicular bisector for the line segment shown in the graph.  y = -11/2x – 63/4
219. Write an equation of a line perpendicular to y =  that passes through the point (2, -3).
y = -3x + 3 220. Determine if the point (-1, √7) lies on a circle centered at the origin and containing the point (3, 0). No, but if i twas (-1, √8) it would ! 221. Determine if the point (4, 5) lies on a circle centered at (2, 2) and containing the point (2, -2). no 222. Determine if the point (0, √3) lies on a circle centered at (-1, 3) and containing the point (-1, 1). no 223. Rectangle ABCD has coordinates A(1, 1), B(1, 3), C(4, 3). Find the coordinates of D. D (4, 1) 224. Prove that EFGH is a rhombus if the vertices given are E(-2, 3), F(0, 4), G(2, 3), H(0, 2). all 4 sides equal, d = √5 225. The coordinates for the vertices of a right triangle are (1, 4), (6, 4), (6, 1). Calculate the area of the right triangle. Calculate the perimeter of the right triangle. P = 8 + √34 or 13.8 ; A = 7.5 226. Classify the quadrilateral LMNO with vertices L(-3, 4), M(3, 3), N(5, 7), and O(-1, 8). Then, prove that the diagonals bisect each other. What formula do you use ? parallelogram, sides are √37 and 3√2, use distance formula to prove diagonals bisect 227. Determine the most precise name for the quadrilateral shown. How can you PROVE it ?  rhombus, all sides are √5 using distance formula
228. A rhombus has vertices at (0, 0), (1, 4), (5, 5), and (4, 1). Prove that the diagonals of the rhombus are perpendicular. Prove that all 4 sides are congruent. Then find the perimeter. use slope to prove perpendicular : (5, 5) and (0, 0) slope is 1, (1, 4) and (4, 1) slope is -1, so they are negative reciprocals ; sides measure √17 ; P = 4√17 or 16.5 229. Classify the quadrilateral with vertices P(-2, 1), A(1, 4), R(4, 1), and T(1, -2). Prove it using coordinate geometry (distance, slope). Then, find the perimeter and area. square, sides are 3√2 and perpendicular ; P = 12√2 or 17 and A = 18 230. Find the point, M, that divides segment AB into a ratio of  if A is at (0, 15) and B is at (20, 0).
(12, 6) 231. Find the point, M, that divides segment AB into a ratio of 5:2 if A is at (-1, 2) and B is at (8, 15). (38/7, 79/7) 232. Given the points P(-4, -2) and Q(4, -10), what are the coordinates of the point on directed line segment PQ that partitions PQ in the ratio 4:1? (12/5, -42/5) 233. Given the points A(-4, -2) and B(4, -10), what are the coordinates of the point on directed line segment AB that partitions AB in the ratio (1, -7) 234. Given the points A(-33, 0) and B(0, 44), find the coordinates of the point P on directed line segment AB that partitions AB in the ratio (-21, 16) 235. Given the points P(2, 3) and Q(5, 9), find the coordinate M that partitions directed line segment PQ in a ratio of 1:2. (3, 5) 236. Find the coordinate, T, that divides AB into a ratio of 3:1 if A is at (-1, -6) and B is at (-5, 2). (-4, 0) 237. Find the coordinate, T, that partitions segment AB in a ratio of (-1, 4) 238. Find the coordinate, T, that divides AB into a ratio of 2:1 if A is at (-1, 2) and B is at (5, 12). (3, 26/3) 239. Triangle ABC has vertices at (2, 4), (-5, -3), and (2, -3). Find the perimeter and area of the triangle. P = 14 + 7√2 or 23.9 and A = 24.5 240. Find the perimeter and area of rectangle with vertices A(-5, 0), B(3, 2), C(-4, -4), D(4, -2). P = 6√17 or 24.7 and A = 34 241. Given a rectangle with vertices E(-3, 5), F(1, 4), G(-1, -4), H(-5, -3), calculate the perimeter and area of the rectangle. Then use distance formula to prove the diagonals bisect each other. P = 6√17 or 24.7 and A = 34; use distance formula to prove diagonals bisect by finding the two distances and proving they’re the same 242. Classify the quadrilateral with vertices at (-5, 3), (3, 5), (5, -3), and (-3, -5). Then find the perimeter and area of the quadrilateral. Square, P = 8√17 or 33 and A = 68 243. Classify the quadrilateral with vertices at (-5, 2), (-1, 4), (4, -1), and (-4, -5). Then find the perimeter of the figure. trapezoid (slopes are parallel, m = ½); P = 6√5 + 10√2 or 27.6 244. Quadrilateral ABCD has vertices at A(-3, 4), B(3, 2), C(5, -4), and D(-1, -2). What type of quadrilateral is ABCD? How do you know? What is the perimeter of ABCD? rhombus because all sides 2√10; P = 8√10 or 25.3 245. A triangle has vertices at (9, 15), (20, 13), and (20, 5). Calculate the perimeter and area of the triangle. sides are 8, 5√5, and √221; P = 34.0 and A = 20√5 or 44.7 246. Triangle ABC has vertices shown. What is the area and perimeter of the triangle? 
sides are √68 for 2 legs and 2√34 for hypotenuse; A = 34; P = 2√34 + 4√17 or 28.2 247. Use the graph to calculate the area and perimeter of the triangle shown.  sides are 3, 4, 5; P = 12 and A = 6
248. Triangle PQR has vertices at P(-3, 1), Q(1, 3), and R(3, -2). Find the perimeter and area of the triangle. sides are 3√5, 2√5, and √29 ; P = √29 + 5√5 or 16.6 and A = √145 or 12.0 Directory: uploads uploads -> 587 Return function, r i(X) r i(0) r i(1) r i(2) r i(3) 1 0 2 4 6 Thermal Station, I 2 0 1 5 6 3 0 3 5 6 10 uploads -> Department of science and humanities department of mathematics part-a questions and answers uploads -> The Case Against the nypd’s Quota-Driven ‘Broken Windows’ Policing What Is It? uploads -> For want of a nail uploads -> Ownership Models There are two different types of ownership models uploads -> Police Militarization uploads -> City of rising star regular meting thursday, july 14, 2016 uploads -> Township of winfield uploads -> Stop Militarizing Law Enforcement Act of 2014 uploads -> The Black Panther Party’s Ten-Point Program What We Want Now! Download 151.49 Kb. Share with your friends:
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