GM_02_04_PRG
... polygon has exactly four congruent angles, then it is a rectangle. Use the Law of Detachment and the Law of Syllogism to make conclusions from the following statements. If it is not possible to make a conclusion, tell why. 13. If you live in Fairbanks, then you live in Alaska. If you live in Alaska, ...
... polygon has exactly four congruent angles, then it is a rectangle. Use the Law of Detachment and the Law of Syllogism to make conclusions from the following statements. If it is not possible to make a conclusion, tell why. 13. If you live in Fairbanks, then you live in Alaska. If you live in Alaska, ...
Name
... the image of P is (27, 45). What are the coordinates of the image of M? 36. The coordinates of ∆PMN are P(5, 6), M(13, −4), and N(−9, 7). After a dilation, the image of P is (55, 66). What are the coordinates of the image of M? ...
... the image of P is (27, 45). What are the coordinates of the image of M? 36. The coordinates of ∆PMN are P(5, 6), M(13, −4), and N(−9, 7). After a dilation, the image of P is (55, 66). What are the coordinates of the image of M? ...
To factor this polynomial we are looking for factors of
... Cumulative, Chapters for lines that are tangent to both circles. The easiest to find are the lines tangent to the outside of both. 9. Copy the figure and point D. Then use a ruler to draw the image of the figure under a dilation with center D and a scale factor of 2. ...
... Cumulative, Chapters for lines that are tangent to both circles. The easiest to find are the lines tangent to the outside of both. 9. Copy the figure and point D. Then use a ruler to draw the image of the figure under a dilation with center D and a scale factor of 2. ...
