An Elementary Treatise on Geometry: Simplified for Beginners Not Versed in Algebra. Part I, Containing Plane Geometry, with Its Application to the Solution of Problems, Part 1 |
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Page 79
... inches in length , to a line of 12 inches ? What , the ratio of a line 2 inches in length , to one of 10 inches , & c . ? Q. 3. When two geometrical ratios are equal to one another , what do they form ? Q. 4. What is a geometrical ...
... inches in length , to a line of 12 inches ? What , the ratio of a line 2 inches in length , to one of 10 inches , & c . ? Q. 3. When two geometrical ratios are equal to one another , what do they form ? Q. 4. What is a geometrical ...
Page 81
... inches , & c . , are in the same proportion . k . In every geometrical proportion , the product of the two mean terms is equal to that of the two extremes . 7. When the two mean terms of a geometrical proport tion are equal to each ...
... inches , & c . , are in the same proportion . k . In every geometrical proportion , the product of the two mean terms is equal to that of the two extremes . 7. When the two mean terms of a geometrical proport tion are equal to each ...
Page 83
... inch , a foot , a fathom , a mile , & c . If we have a line upon which we can take the length of an inch 3 times , we say that line measures 3 inches , or is 3 inches long . In like manner , if we have a line upon which we can take the ...
... inch , a foot , a fathom , a mile , & c . If we have a line upon which we can take the length of an inch 3 times , we say that line measures 3 inches , or is 3 inches long . In like manner , if we have a line upon which we can take the ...
Page 84
... inches , & c . , as that rectangle . * The term equivalent would undoubtedly be better ; but as there is no generally adopted sign in mathematics to express that two things are equivalent without being exactly the same , we are obliged ...
... inches , & c . , as that rectangle . * The term equivalent would undoubtedly be better ; but as there is no generally adopted sign in mathematics to express that two things are equivalent without being exactly the same , we are obliged ...
Page 85
... inches , and the height , the side BC , 4 inches , how many square inches are there in the rectangle ? A. Twenty - four . Q. How can you prove this ? D 1 2 3 4 5 6 C 4 3 1 3 2 2 13 A B 1 2 3 5 6 A. If a rectangle is four inches high , I ...
... inches , and the height , the side BC , 4 inches , how many square inches are there in the rectangle ? A. Twenty - four . Q. How can you prove this ? D 1 2 3 4 5 6 C 4 3 1 3 2 2 13 A B 1 2 3 5 6 A. If a rectangle is four inches high , I ...
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Common terms and phrases
adjacent angles angle ABC angle ACB angle x basis bisected called centre chord circle whose radius circum circumference circumscribed circles consequently degrees DEMON diagonal diameter dividing the product draw the lines equal angles equal sides equal triangles exterior angle feet figure ABCDEF found by multiplying fourth term geometrical proportion given angle given circle given straight line given triangle gles height hypothenuse inches isosceles triangle length let fall line AB line AC line CD line MN mean proportional measures half number of sides parallel lines parallelogram ABCD perpendicular points of division PROBLEM prove quadrilateral radii radius rectangle rectilinear figure regular polygon ABCDEF Remark rhombus right angles right-angled triangle second term Sect semicircle side AB side AC similar triangles smaller SOLUTION subtended tangent third line third term three angles three sides trapezoid triangle ABC triangles are equal Truth vertex
Popular passages
Page 2 - District Clerk's Office. BE IT REMEMBERED, that on the tenth day of August, AD 1829, in the fifty-fourth year of the Independence of the United States of America, JP Dabney, of the said district, has deposited in this office the title of a book, the right whereof he claims as author, in the words following, to wit...
Page 78 - If two triangles have two sides of the one equal to two sides of the other, each to each, but the...
Page 2 - CLERK'S OFFIcE. BE it remembered, that on the eleventh day of November, AD 1830, in the fiftyfifth year of the Independence of the United States of America, Gray & Bowen, of the said district, have deposited in this office the title of a book, the right whereof they claim as proprietors, in the words following, to wit...
Page 136 - The circumference of every circle is supposed to be divided into 360 equal parts, called degrees ; each degree into 60 equal parts, called minutes ; and each minute into 60 equal parts, called seconds.
Page 121 - The perimeters of two regular polygons of the same number of sides, are to each other as their homologous sides, and their areas are to each other as the squares of those sides (Prop.
Page 137 - The side of a regular hexagon inscribed in a circle is equal to the radius of the circle.
Page 127 - The areas of two regular polygons of the same number of sides are to each other as the squares of their radii, or as the squares of their apothems.
Page 154 - A, with a radius equal to the sum of the radii of the given circles, describe a circle.
Page 90 - ... any two triangles are to each other as the products of their bases by their altitudes.
Page 137 - P is at the center of the circle. II. 18. The sum of the arcs subtending the vertical angles made by any two chords that intersect, is the same, as long as the angle of intersection is the same. 19. From a point without a circle two straight lines are drawn cutting the convex and concave circumferences, and also respectively parallel to two radii of the circle. Prove that the difference of the concave and convex arcs intercepted by the cutting lines, is equal to twice the arc intercepted by the radii.