Euclid's Elements: Or, Second Lessons in Geometry,in the Order of Simson's and Playfair's Editions ...Collins, Brother & Company, 1846 - 138 sider |
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Resultat 1-5 av 83
Side 5
... given , or can give . What is the deficiency with all of us ? Why have we not more men entitled to de- grees ? The reason is this : We are not masters of the elements of science ; we cannot call up at will the proofs of many ...
... given , or can give . What is the deficiency with all of us ? Why have we not more men entitled to de- grees ? The reason is this : We are not masters of the elements of science ; we cannot call up at will the proofs of many ...
Side 7
... given . Note . There are two classes of lines ; namely , straight and curved : of curves there are several species ; but the circle alone will be here con- sidered . Lines have lengths , but no other dimensions . 4. A straight line is ...
... given . Note . There are two classes of lines ; namely , straight and curved : of curves there are several species ; but the circle alone will be here con- sidered . Lines have lengths , but no other dimensions . 4. A straight line is ...
Side 11
... given straight line ( AB ) . Construction . From the extreme points , A and B , with the radius AB , describe the circles ACE , BCD ( a ) , intersecting each other in the point C : join C to A and B ( b ) . Demonstration . ABC is the ...
... given straight line ( AB ) . Construction . From the extreme points , A and B , with the radius AB , describe the circles ACE , BCD ( a ) , intersecting each other in the point C : join C to A and B ( b ) . Demonstration . ABC is the ...
Side 12
... given straight lines , to cut off a part equal to the less ( C ) . Constr . Draw the line AD equal to C , ( a ) ; and from the centre A , with the distance AD , describe the circle DEF ( b ) . Dem . AD and AE are equal radii ( c ) ; but ...
... given straight lines , to cut off a part equal to the less ( C ) . Constr . Draw the line AD equal to C , ( a ) ; and from the centre A , with the distance AD , describe the circle DEF ( b ) . Dem . AD and AE are equal radii ( c ) ; but ...
Side 15
... given rectilineal angle ( BAC ) ; that is , to divide it into two equal angles . Constr . In AB take any point D ; make AE equal to AD ( a ) ; join DE ( b ) , and upon it de- scribe an equilateral triangle DEF ( c ) ; join AF : the ...
... given rectilineal angle ( BAC ) ; that is , to divide it into two equal angles . Constr . In AB take any point D ; make AE equal to AD ( a ) ; join DE ( b ) , and upon it de- scribe an equilateral triangle DEF ( c ) ; join AF : the ...
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Euclid's Elements: Or, Second Lessons in Geometry,in the Order of Simson's ... Dennis M'Curdy Uten tilgangsbegrensning - 1846 |
Euclid's Elements, Or Second Lessons in Geometry, in the Order of Simson's ... D. M'Curdy Ingen forhåndsvisning tilgjengelig - 2017 |
Euclid's Elements, Or Second Lessons in Geometry, in the Order of Simson's ... D. M'Curdy Ingen forhåndsvisning tilgjengelig - 2017 |
Vanlige uttrykk og setninger
ABCD alternate angles angle ACD angles ABC angles equal antecedents Argument base BC bisected centre Chart chord circle ABC circumference Constr Denison Olmsted diameter draw drawn equal angles equal arcs equal radii equal sides equals the squares equi equiangular equilateral equilateral polygon equimultiples exterior angle fore Geometry given circle given rectilineal given straight line gles gnomon greater half inscribed isosceles isosceles triangle join less meet multiple opposite angles parallelogram parallelopipeds pentagon perimeter perpendicular plane polygon produced propositions Q. E. D. Recite radius ratio rectangle rectilineal figure School segment semicircle similar similar triangles sine square of AC tangent touches the circle triangle ABC unequal Wherefore
Populære avsnitt
Side 90 - If two triangles have one angle of the one equal to one angle of the other, and the sides about the equal angles proportionals, the triangles shall be equiangular, and shall have those angles equal which are opposite to the homologous sides.
Side 117 - In the same way it may be proved that a : b : : sin. A : sin. B, and these two proportions may be written a : 6 : c : : sin. A : sin. B : sin. C. THEOREM III. t8. In any plane triangle, the sum of any two sides is to their difference as the tangent of half the sum of the opposite angles is to the tangent of half their difference. By Theorem II. we have a : b : : sin. A : sin. B.
Side 92 - IN a right-angled triangle, if a perpendicular be drawn from the right angle to the base, the triangles on each side of it are similar to the whole triangle, and to one another.
Side 79 - THEOREM. lf the first has to the second the same ratio which the third has to the fourth, but the third to the fourth, a greater ratio than the fifth has to the sixth ; the first shall also have to the second a greater ratio than the fifth, has to the sixth.
Side 87 - If a straight line be drawn parallel to one of the sides of a triangle, it shall cut the other sides, or those sides produced, proportionally...
Side 26 - Triangles upon equal bases, and between the same parallels, are equal to one another.
Side 94 - Equal parallelograms which have one angle of the one equal to one angle of the other, have their sides about the equal angles reciprocally proportional ; and parallelograms that have one angle of the one equal to one angle of the other, and their sides about the equal angles reciprocally proportional, are equal to one another.
Side 12 - THE angles at the base of an isosceles triangle are equal to one another : and, if the equal sides be produced, the angles upon the other side of the base shall be equal.
Side 133 - If a straight line stand at right angles to each of two straight lines at the point of their intersection, it shall also be at right angles to the plane which passes through them, that is, to the plane in which they are.
Side 13 - AB be the greater, and from it cut (3. 1.) off DB equal to AC the less, and join DC ; therefore, because A in the triangles DBC, ACB, DB is equal to AC, and BC common to both, the two sides DB, BC are equal to the two AC, CB. each to each ; and the angle DBC is equal to the angle ACB; therefore the base DC is equal to the base AB, and the triangle DBC is< equal to the triangle (4. 1.) ACB, the less to 'the greater; which is absurd.