2.7.1 Euclidean Parallel Postulate
... There are many statements that are equivalent to the Euclidean Parallel Postulate, which could be used as the axiom. We list several of them below after the exercises. How many of them can you show are equivalent? The exercises ask you to prove one direction on a few of the statements and to find a ...
... There are many statements that are equivalent to the Euclidean Parallel Postulate, which could be used as the axiom. We list several of them below after the exercises. How many of them can you show are equivalent? The exercises ask you to prove one direction on a few of the statements and to find a ...
Good Stuff on Vectors
... • The classic way to add vectors is to represent them with arrows, draw them to scale, and then measure out things with a ruler and protractor to see what the answer would be. • A vector is represented as an arrow. The arrowhead points in the vector’s direction and the length represents the vector’s ...
... • The classic way to add vectors is to represent them with arrows, draw them to scale, and then measure out things with a ruler and protractor to see what the answer would be. • A vector is represented as an arrow. The arrowhead points in the vector’s direction and the length represents the vector’s ...
Export To Word
... Example: Draw the polygon defined by the following vertices ( 1, 3), ( -1, 3), (3, 1), (-3, 1), (1, -3), (-1, -3), (-3, 1), (3, -1). Is this polygon regular? Justify your answer. Example: Is the polygon formed by connecting the points (2, 1), ( 6, 2), (5, 6), and (1, 5) a square? Justify your answer ...
... Example: Draw the polygon defined by the following vertices ( 1, 3), ( -1, 3), (3, 1), (-3, 1), (1, -3), (-1, -3), (-3, 1), (3, -1). Is this polygon regular? Justify your answer. Example: Is the polygon formed by connecting the points (2, 1), ( 6, 2), (5, 6), and (1, 5) a square? Justify your answer ...