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3. In a right-angled triangle, are given the hypothe nuse AC 36.57, and the Angle A = 27° 46', to find the base AB, and perpendicular BC. Ans. Base AB = 32.36, and perpendicular BC= 17.04.

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4. In a right-angled triangle, there are given, the perpendicular 193.6, and the angle opposite the base 47° 51'; required the hypothenuse and base. Ans. Hypothenuse 288.5, and base = 213.9.

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5. Required the angles and hypothenuse of a rightangled triangle, the base of which is 46.72, and perpendicular 57.9. Ans. Angle opposite the base 38° 54', angle opposite the perpendicular 51° 6', and hypothenuse 74.4.

When two sides of a right-angled triangle are given, the other side may be found by the following rules, without first finding the angles.

1. When the hypothenuse and one leg are given, to find the other leg.

RULE.

Subtract the square of the given leg from the square of the hypothenuse; the square root of the remainder will be the leg required.* Or by logarithms thus,

To the logarithm of the sum of the hypothenuse and given side, add the logarithm of their difference; half this sum will be the logarithm of the leg required.

* DEMONSTRATION. The square of the hypothenuse of a right-angled triangle is equal to the sum of the squares of the sides (47.1).

2. When the two legs are given to find the hypothenuse.

RULE.

Add together the squares of the two given legs; the square root of the sum will be the hypothenuse.* Or by logarithms thus,

From twice the logarithm of the perpendicular, subtract the logarithm of the base, and add the corresponding natural number to the base; then, half the sum of the logarithms of this sum, and of the base, will be the logarithm of the hypothenuse.

EXAMPLES.

1. The hypothenuse of a right-angled triangle is 272, and the base 232; required the perpendicular.

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* Puth the hypothenuse, 6 the base, and

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the perpendi

cular, then (47.1) p2 = h2 — b2 (5.2. cor.) h + b × h—b, or p ==

b; whence from the nature of logarithms, the latter

nh+bxh.
part of the first rule is evident.

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which solved by logarithms will correspond with the latter part of the

2. Given the base 186, and the perpendicular 152, to find the hypothenuse.

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3. The hypothenuse being given equal 403, and one leg 321; required the other leg. Ans. 243.7.

4. What is the hypothenuse of a right-angled triangle, the base of which is 31.04, and perpendicular 27.2. Ans. 41.27.

The following examples, in which trigonometry is applied to the mensuration of inaccessible distances and heights, will serve to render the student expert in solving the different cases, and also to elucidate its use.

The Application of Plane Trigonometry to the mensuration of Distances and Heights.

EXAMPLE 1. Fig. 54.

Being on one side of a river and wanting to know the distance to a house on the other side, I measured 500

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yards along the side of the river in a right line AB, and found the two angles* between this line and the object to be CAB = 74° 14', and CBA = 49° 23'. Required the distance between each station and the object.

Calculation.

The sum of the angles CAB and CBA is 123° 37', which subtracted from 180° leaves the angle ACB = 56° 23'. Then by Case 1;

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Suppose I want to know the distance between two places A and B, accessible at both ends of the line AB, and that I measured AC 735 yards, and BC = 840; also the angle ACB 55° 40'. What is the distance between A and B?

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Calculation.

The angle ACB = 55° 40′, being subtracted from 180°, leaves 124° 20′; the half of which is 62° 10′. Then by Case 3.

* The angles may be taken with a common surveyor's compass; or

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7° 12′ and we shall have CAB = 69° 22′, and CBA = 54° 58′. Then,

S. ABC S. ACB:: AC : AB
54° 58'

55° 40'

735 741

EXAMPLE S. Fig. 56.

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Wanting to know the distance between two inaccessible objects A and B, I measured a base line CD 300 yards: at C the angle BCD was 58° 20′ and ACD 95° 20'; at D the angle CDA was 53° 30' and CDB 98° 45'. Required the distance AB.

Calculation.

1. In the triangle ACD, are given the angles ACD = 95° 20′, ADC = 53° 30', and the side CD = 300, to find AC = 465.98.

2. In the triangle BCD, are given the angle BCD = 58° 20′, BDC = 98° 45', and side CD = 300, to find BC761.47.

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3. In the triangle ACB we have now given the angle ACB ACD — BCD = 37°, the side AC = 465.98 and BC= 761.47, to find AB = 479.8 yards, the distance required.

EXAMPLE 4. Fig. 57.

Being on one side of a river and observing three ob

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