## An Analytical Treatise on Plane and Spherical Trigonometry, and the Analysis of Angular Sections |

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An Analytical Treatise on Plane and Spherical Trigonometry, and the Analysis ... Dionysius Lardner Uten tilgangsbegrensning - 1828 |

An Analytical Treatise on Plane and Spherical Trigonometry, and the Analysis ... Dionysius Lardner Uten tilgangsbegrensning - 1826 |

An Analytical Treatise on Plane and Spherical Trigonometry, and the Analysis ... Dionysius Lardner Ingen forhåndsvisning tilgjengelig - 2018 |

### Vanlige uttrykk og setninger

2sin angles opposed angular base bisects centre computed cos.a cos.b cos.c cos.s cos.w cosecant cosine cot.a cot.B cot.c cotangents deduced determine the side different species Differential Calculus divided equal angles equal sides equation expressed formulae given triangle Given two sides Hence hypothenuse included angle integer intersection isosceles triangles lesser circle logarithms lune method multiplying Neper's rules oblique angles observed obtain perpendicular plane triangle poles problem PROP quadrantal radii relation remaining angles remaining sides respectively equal right angles right-angled triangles secants SECTION sexagesimal sides and angles sides opposite sin.a sin.b sin.c sin.c cos.A sin.s sin.w sine sines and cosines solid angles solution sphere spherical triangle spherical trigonometry sum or difference supplemental polar triangle surface symmetrical function symmetrically equal tan.a tan.b tan.c tan.r tan.w tangents three angles three sides trigono trigonometrical values vertex vertices vice versá

### Populære avsnitt

Side 102 - In a right angled spherical triangle, the rectangle under the radius and the sine of the middle part, is equal to the rectangle under the tangents of the adjacent parts ; or, to the rectangle under the cosines of the opposite parts The...

Side 42 - 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.

Side 70 - The sum of the three sides of a spherical triangle is less than the circumference of a great circle. Let ABC be any spherical triangle; produce the sides AB, AU, till they meet again in D.

Side 89 - Let a, b, c, be the sides, and A, B, c, the angles of a spherical triangle, as usual.

Side 80 - In any spherical triangle, the greater side is opposite the greater angle ; and conversely, the greater angle is opposite the greater side.

Side 52 - The logarithm of a power of a number is found by multiplying the logarithm of the number by the exponent of the power. For, A« = (10°)

Side 115 - Б) arc of the same species. 180. In the solution of oblique-angled spherical triangles, there are six cases, the data in them being, respectively, I. Two sides and an angle opposite one of them. II. Two angles and a side opposite one of them. III. Two sides and the included angle. IV. Two angles and the included side. V. The three sides. VI. The three angles. CASE I. 181. Given two sides and an angle opposite one of them. Let there be given, in the oblique- c angled spherical triangle ABC, the sides...

Side 103 - ... is enabled to solve every case of right-angled triangles. These are known by the name of Napier's Rules for Circular Parts ; and it has been well observed by the late Professor Woodhouse, that, in the whole compass of mathematical science, there cannot be found rules which more completely attain that which is the proper object of all rules, namely, facility and brevity of computation.

Side 46 - ... and using, in case of need, the auxiliary angles ; with the modifications of the formulae whence they are derived ; and having reference, for convenience of notation, to a spherical triangle ABC, figure 15 or 16, whose sides a, b, c, are respectively opposite to the angles A, B, C.

Side 94 - ... b) = sec b, cosec ( — b) = — cosec b ; (53) that is, the cosine and secant of the negative of an angle are the same as those of the angle itself ; and the sine, tangent, cotangent, and cosecant of the negative of an angle are the negatives of those of the angle. These results correspond with those obtained geometrically (Art. 68). 80.