## Elements of Plane and Spherical Trigonometry: With Their Applications to Heights and Distances Projections of the Sphere, Dialling, Astronomy, the Solution of Equations, and Geodesic Operations |

### From inside the book

Results 1-5 of 52

Page 2

...

...

**centre**of that sphere , to determine the other three , when pos- sible . The resolution of the first of these general problems appertains to plane or rectilinear trigonometry : that of the second , to spherical trigonometry . 4. Lines ... Page 3

...

...

**centre**, and with any distance , or radius , ca , a circle be described , intersecting CA , CB , the right lines that include the angle ACB , in A and B ; the angle ACB will be to four right angles , as the arc AB to the whole ... Page 4

...

...

**centre**with any two distances CA ' , CA , two circles be described , meeting CA , CB , in Α ́ , Β ́ , Α , Β ; the arc AB will be to the whole circumference of which it is a part , as the arc A'B ' to the whole circumference of which it ... Page 11

...

...

**centre**B , then CD would become the sine of 30 ° , which is consequently half the radius . PROP . VI . 6. The tangent of an arc of 45 ° is equal to the radius . Suppose AB in the last figure but one were an arc of 45 ° ; then would ACB ... Page 15

...

...

**centre**) ; and BID = BCD ( Euc . iii . 20 ) ; 6m is equal to the tangent of ( AE + AB ) , and bL = to the tangent of ( AE - AB ) , that is , of ( AD - AB . ) But , by reason of the parallels DE , LM , we have EN : DN :: 6M : bL ; which ...### Other editions - View all

### Common terms and phrases

altitude angled spherical triangle axis azimuth base becomes bisect centre chap chord circle circle of latitude computation cos² cosec cosine cotangent declination deduced determine dial diameter difference distance draw earth ecliptic equa equal equation Example find the rest formulæ given side gonal h cos h half Hence horizon hour angle hypoth hypothenuse intersecting latitude logarithmic longitude measured meridian oblique opposite angle parallel perpendicular plane angles plane triangle pole problem prop quadrant radius right angled spherical right angled triangle right ascension right line secant sin a sin sin² sine solid angle sphere spherical excess spherical trigonometry star substyle sun's supposed surface tan² tangent theorem three angles three sides tion triangle ABC values versed sine versin vertical angle whence yards zenith δα δε дв

### Popular passages

Page 4 - 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 248 - SCIENTIFIC DIALOGUES ; intended for the Instruction and Entertainment of Young People ; in which the first principles of Natural and Experimental Philosophy are fully explained, by the Rev.

Page 225 - ... third of the excess of the sum of its three angles above two right angles...

Page 19 - In any plane triangle, as twice the rectangle under any two sides is to the difference of the sum of the squares of those two sides and the square of the base, so is the radius to the cosine of the angle contained by the two sides.

Page 30 - TO THEIR DIFFERENCE ; So IS THE TANGENT OF HALF THE SUM OF THE OPPOSITE ANGLES', To THE TANGENT OF HALF THEIR DIFFERENCE.

Page 249 - OSTELL'S NEW GENERAL ATLAS; containing distinct Maps of all the principal States and Kingdoms throughout the World...

Page 34 - Call any one of the sides radius, and write upon it the word radius ; observe whether the other sides become sines, tangents, or secants, and write those words upon them accordingly. Call the word written upon each side the name of each side ; then say, As the name of the given side, Is to the given side ; So is the name of the required side, To the required side.

Page 69 - Being on a horizontal plane, and wanting to ascertain the height of a tower, standing on the top of an inaccessible hill, there were measured, the angle of elevation of the top of the hill 40°, and of the top of the tower 51° ; then measuring in a direct line 180 feet farther from the hill, the angle of elevation of the top of the tower was 33° 45' ; required the height of the tower.

Page 18 - AC, (Fig. 25.) is to their difference ; as the tangent of half the sum of the angles ACB and ABC, to the tangent of half their difference.

Page 83 - 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...