## The Essentials of Plane and Spherical Trigonometry |

### From inside the book

Results 1-5 of 49

Page

... Spherical Triangles Napier's Analogies . 114 • 121 Solution of Spherical Oblique Triangles Applications 123 133 FORMULE . • ANSWERS TO THE

... Spherical Triangles Napier's Analogies . 114 • 121 Solution of Spherical Oblique Triangles Applications 123 133 FORMULE . • ANSWERS TO THE

**EXAMPLES**137 144 OF THE UNIVERS OF SAL FORIAK PART I. PLANE TRIGONOMETRY vi CONTENTS . Page 2

...

...

**example**, the circular measure of a right angle is equal to the ratio of one - fourth the circumference to the radius . But the circumference of a circle is equal to the radius multiplied by 2π , where 3.14159265 ... π = Hence , if R ... Page 3

...

...

**EXAMPLES**. 9. Express the following in circular measure : 2. 198 ° . 1. 135 ° . 3. 11 ° 15 ' . 4. 37 ° 30 ' . 5. 29 ° 15 ' . 7. 128 ° 34 ' . 6. 174 ° 22 ' 30 " . 8. 92 ° 48 ′ 45 ′′ . 9 . 10 . Express the following in degree measure : 1 ... Page 8

...

...

**EXAMPLES**. In each case find the values of the remaining functions : 3. tan A = 1 = 9. cot A = X . 3 х 8 4. covers A = 7. sin A 10. cos A = 5 y 17 13 5. csc A = 4 . 8. sec A = 11. sec A = Va2 + b2 5 b 16. To find the values of the sine ... Page 30

...

...

**EXAMPLES**. Find the values of the functions of the following angles in terms of the functions of A : 3. 450 ° - A. 7 . 630 ° - A. 11. - 180 ° + A. 4. 450 ° + A . 8 . 900 ° A. - 12 . - 180 ° — A. 5. 540 ° - A. 9 . − 90 ° A. 13 . - 270 ...### Other editions - View all

### Common terms and phrases

A'BC abscissa acute angle adjacent angle corresponding angle obtained C₁ CD² check formula circular measure colog cologarithm cos a cos cos(x+y cos² cosecant cosine cotangent decimal Denoting distance equal EXAMPLES find the angle find the logarithm find the values following triangles formulæ of Art functions Geometry given elements Given the three Given two sides Hence hypotenuse included angle log cot log csc log sin log tan manner mantissa Napier's rules Note obtain the formulæ opposite angle ordinate perpendicular polar triangle positive radius right angle right triangle ABC secant sin B sin sin C cos sin² Solve the following spherical oblique triangles spherical right triangle spherical triangle Spherical Trigonometry subtract tanc tangent terminal line triedral angle trigonometric functions Trigonometry Whence by Art XOP₁ ос

### Popular passages

Page 1 - To express fractional parts of the unit, the degree is divided into sixty equal parts called minutes, and the minute into sixty equal parts, called seconds. Degrees, minutes, and seconds are represented by the symbols, °. ', ", respectively. Thus, 43° 22' 37" represents an angle of 43 degrees, 22 minutes, and 37 seconds.

Page 107 - If the function is a sine, since the sine of an angle is equal to the sine of its supplement...

Page 104 - I. The sine of the middle part is equal to the product of the tangents of the adjacent parts.

Page 1 - ... is the angle subtended at the centre of a circle by an arc whose length is equal to the radius of the circle.

Page 77 - In any triangle the square of any side is equal to the sum of the squares of the other two sides minus twice the product of these two sides and the cosine of their included angle.

Page 94 - ACB are measured, and found to be 126° 35' and 31° 48', respectively. Required the distance AB. 1. A flagpole 40 feet in height stands on the top of a tower. From a position near the base of the tower, the angles of elevation of the top and bottom of the pole are 38° 53

Page 76 - In every plane triangle, the sum of two sides is to their difference as the tangent of half the sum of the angles opposite those sides is to the tangent of half their difference.

Page 96 - If two sides of a spherical triangle are unequal, the angles opposite them are unequal, and the greater angle lies opposite the greater side ; and conversely.

Page 57 - ... the logarithm of a fraction is equal to the logarithm of the numerator minus the logarithm of the denominator.

Page 116 - A cos 6 = cos a cos c + sin a sin c cos B cos c = cos a cos 6 + sin a sin 6 cos C Law of Cosines for Angles cos A = — cos B...