Geometry 1

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Addition property of equality: If a = b, then a + c = b + c
Line Intersection Theorem: Two different lines intersect in at most one point. p.43
Linear Pair Theorem: If two angles form a linear pair, then they are supplementary. p.140
Vertical Angles Theorem:: If two angles are vertical angles, then they have equal measures. p.141
Parallel Lines and Slopes Theorem: Two nonvertical lines are parallel if and only if they have the same slope. p.158
Transitivity of Parallelism Theorem: In a plane, if l m and m n, then l n. p. 158
Two Perpendiculars Theorem: If two coplanar lines l and m are each perpendicular to the same lines, then they are parallel to each other. p. 162
Perpendicular to Parallels Theorem1: In a plane, if a line is perpendicular to one of two parallel lines, then it is also perpendicular to the other.
Perpendicular Lines and Slopes Theorem: Two nonvertical lines are pependicular if and only if the product of their slopes is -1. p.162
angle: the union of two rays that have the same endpoint. p. 124
bisector: VR is the bisector of <PVQ if and only if VR (except for point V) is in the interior of <PVQ and m<PVR = m<RVQ.
adjacent angles: Two non-straight and non zero angles are adjacent angles if and only if a common side (OB in the figure) is interior to the angle formed by the non-common sides (<AOC). p. 139
Linear pair: Two adjacent angles form a linear pair if and only if their non-common sides are opposite rays.
Complimentary Supplementary: If the measures of two angles are m1 and m2, then the angles are
a. complementary if and only if m1 + m2 = 90.
b. supplementary if and only if m1 + m2 = 180
parallel lines: two coplanar lines m and n are parallel lines, written m n, if and only if they have no points in common or they are identical.
segment: The segment (or line segment) with endpoints A and B, denoted AB, is the set consisting of the distinct points A and B and all points between A and B.
ray: The ray with endpoint A and containing a second point B, denoted AB consists of the points on AB and all points for which B is between each of them and A.
opposite rays: AB and AC are opposite rays if and only if A is between B and C.
Angle Addition Property: If VC (except for point V) is in the interior of <AVB, then m<AVC + m<CVB = m<AVB.
Angles: zero acute right obtuse straight: zero if m = 0
acute if and only if 0 < m < 90
right if and only if m = 90
obtuse if and only if 90 < m < 180
straight if and only if m = 180
vertical angles: Two non-straight angles are vertical angles if and only if the union of their sides is two lines.
Reflexive property of equality: a = a
Symmetric property of equality: If a = b, then b = a.
Transitive Property of Equality: If a = b and b = c, then a = c.
Multiplication Property of Equality: If a = b, then ac = bc.
Corresponding Angles Postulate Suppose two coplanar lines are cut by a transversal...: a. If two corresponding angles have the same measure, then the lines are parallel.
b. If the lines are parallel, then corresponding angles have the same measure.
perpendicular: Two segments, rays, or lines are perpendicular if and only if the lines containing them form a 90 angle.
Point Line Postulate: a. Unique Line Assumption: Through any two points, there is exactly one line. p.42
Point Line Postulate: b. Number Line Assumption: Every line is a set of points that can be put into a one-to-one correspondence with the real numbers, with any point corresponding to 0 and any other point corresponding to 1. p.42
Point Line Postulate: c. Dimension Assumption: 1. Given a line in a plane, there is at least one point in the plane that is not on the line.
2. Given a plane in space, there is at least one point in space that is not in the plane. p.42
Distance Postulate: a. Uniqueness property: On a line, there is a unique distance between two points.
Distance Postulate: b. Distance formula: If two points on a line have coordinates x and y the distance between them is X - Y .
Distance Postulate: c. Additive property-: If B is on AC, then AB = BC = AC.
Convex-: A convex set is a set in which every segment that connects points of the set lies entirely in the set.
Instance of a conditional-: An instance of a conditional is a specific case in which both the antecedent (if part) and the consequent (then part) of the conditional are true.
Counterexample to a conditional: A counterexample to a conditional is a specific case for which the antecedent (if part) of the conditional is true and its consequent (then part) is false.
Converse: The converse of P q is q P.
Midpoint-: The midpoint of a segment AB is the point M on AB with AM = MB.
Union of two sets-: The union of two sets A and B, written A B, is the set of elements which are in A, in B, or in both A and B.
Intersection of two sets: The intersection of two sets A and B, written A B, is the set of elements which are in both A and B.
Polygon-: A polygon is the union of segments in the same plane such that each segment intersects exactly two others, one at each of its endpoints.
Triange Inequality Postulate-: The sum of the lenghts of any two sides of a triange is greater than the length of the third side.
vertices- (vertex): The endpoints of the sides of a polygon. Singular is vertex.
Consecutive (or adjacent)-: Consecutive (or adjacent) sides are sides which share an endpoint. p.96
Diagonal-: A diagonal is a segment connecting nonadjacent vertices. p. 96
equilateral triangle: all three sides are equal
isosceles triangle-: has at least two sides of equal length. p. 97
scalene triangle-: a triangle with no sides of the same length. p. 96
Triangle Inequality Postulate-: The sum of the lengths of any two sides of a triangle is greater than the length of the third side.
Postulates of Inequality and Operations: Transitive Addition Multiplication: Transitive-
If a<b and b<c, then a<c.
Addition-
If a<b, then a+c<b+c.
Multiplication-
If a < b and c > 0, then ac < bc.
If a < b and c < 0, then ac > bc.
slope: The slope of the line through
(X1, Y1) and (X2, Y2),
with X1 not equal to X2 is

Y2 - Y1

X2 - X1
Circle-: A circle is the set of all points in a plane at a certain distance, its radius, from a certain point, its center.

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