Plane Geometry |
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Page 4
... cut by a diamond point on a steel plate one inch long , the breadth of such lines is very minute , yet they give only an approximate idea of what is meant by a geometric line . 8. Points . Any three edges of ABCD which meet. 4 PLANE ...
... cut by a diamond point on a steel plate one inch long , the breadth of such lines is very minute , yet they give only an approximate idea of what is meant by a geometric line . 8. Points . Any three edges of ABCD which meet. 4 PLANE ...
Page 16
... cuts another so as to make any two adjacent angles equal , each line is perpendicular ( symbol 1 ) to the other . 12 A 3 B Thus , if ABC and KBR are straight lines , and angle ABK equals angle KBC , each of the lines AC and KR ( or any ...
... cuts another so as to make any two adjacent angles equal , each line is perpendicular ( symbol 1 ) to the other . 12 A 3 B Thus , if ABC and KBR are straight lines , and angle ABK equals angle KBC , each of the lines AC and KR ( or any ...
Page 17
... cuts another so that there are no two adjacent angles which are equal to each other , then the lines . would not be called perpendicular . A corresponding remark holds regarding most of the definitions . in this and other texts . 38 ...
... cuts another so that there are no two adjacent angles which are equal to each other , then the lines . would not be called perpendicular . A corresponding remark holds regarding most of the definitions . in this and other texts . 38 ...
Page 18
... cuts AC , how many right angles are formed ? QUERY 3. Can two angles have a common side and not be adjacent angles ? Illustrate with a figure . QUERY 4. Can two angles have a common vertex and not be adjacent angles ? Illustrate . QUERY ...
... cuts AC , how many right angles are formed ? QUERY 3. Can two angles have a common side and not be adjacent angles ? Illustrate with a figure . QUERY 4. Can two angles have a common vertex and not be adjacent angles ? Illustrate . QUERY ...
Page 21
... cuts CD . Proof 4. Then if KR is not | to CD , 4. Remaining alternative in NOTE . The method of proof in which we suppose. 3. But two perpendiculars from the same point to a line are impossible . 4. Therefore KR cannot meet LM . 5 ...
... cuts CD . Proof 4. Then if KR is not | to CD , 4. Remaining alternative in NOTE . The method of proof in which we suppose. 3. But two perpendiculars from the same point to a line are impossible . 4. Therefore KR cannot meet LM . 5 ...
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Common terms and phrases
AABC acute angle adjacent angles adjacent figure algebra altitude angles are equal apothem arc BC Axiom base bisector bisects central angle chord circumference circumscribed common tangent compute congruent Construct a triangle Converse of Theorem convex polygon Corollary cuts decagon diagonals diameter divided Draw drawn equal angles equal circles equal respectively equiangular equilateral triangle equivalent EXERCISES exterior angle Find the area Find the number geometry Given the triangle greater hexagon HINT hypotenuse hypothesis inches inscribed angle intersect isosceles triangle length line-segment locus measured median mid-perpendicular mid-point number of degrees number of sides parallelogram perimeter perpendicular plane Proof proportional prove quadrilateral QUERY radii radius ratio rectangle regular inscribed regular polygon rhombus right angles right triangle secant segments square straight angle straight line tangent third side trapezoid triangle ABC vertex vertices
Popular passages
Page 224 - ... they have an angle of one equal to an angle of the other and the including sides are proportional; (c) their sides are respectively proportional.
Page 182 - If a perpendicular is drawn from the vertex of the right angle to the hypotenuse of a right triangle...
Page 80 - If two triangles have two sides of one equal respectively to two sides of the other, but the included angle of the first greater than the included angle of the second, then the third side of the first is greater than the third side of the second.
Page 26 - The two pairs of angles 3 and 6, 4 and 5, are called alternate interior angles ; and the two pairs of angles if 1 and 8, 2 and 7, are called alternate exterior angles. The four pairs of angles 1 and 5, 2 and 6, 3 and 7, and 4 and 8 are called corresponding angles.
Page 69 - The line which joins the mid-points of two sides of a triangle is parallel to the third side and equal to one half of it.
Page 230 - In any triangle, the square of the side opposite an acute angle is equal to the sum of the squares of the other two sides, minus twice the product of one of these sides and the projection of the other side upon it.
Page 184 - In a right triangle the square of the hypotenuse equals the sum of the squares of the other two sides or legs.
Page 175 - In a series of equal ratios, the sum of the antecedents is to the sum of the consequents as any antecedent is to its consequent.
Page 192 - If two chords intersect within a circle, the product of the segments of the one is equal to the product of the segments of the other.
Page 242 - Prove that the area of the square on the hypotenuse of a right triangle equals the sum of the areas of the squares on the other two sides.