# Applications of Trigonometry

The concept and different ratios of trigonometry are already studied in the previous chapter. Here are some basic applications of trigonometry need to be discussed. As it is known that, trigonometry is one of the ancient subjects which is studied all over the world. Trigonometry has a lot of use in astronomy to calculate the distance between planets and stars. In day-to-day life, trigonometry can be used to calculate the distance in a simple way. Before coming to the main application first one should clear basic terms like the angle of elevation, line of sight, angle of depression, etc.

Usually, height is measured in the vertical direction while distancing in the horizontal direction from a certain point. One will more clear about these terms as go through each of the topic provided below.

**Angle of Elevation**

Consider a person looking at the top of the light tower as in the below figure:

In this figure, the line DE drawn from the eye of the boy to the top of the tower is called as * Line of Sight*.

The angle between the line of the sight and the horizontal level at the eye of the boy, Î”CDA or âˆ D, is called the * angle of elevation*.

When we measure the angle of elevation, the observer should raise their head and look above the horizontal level.

Here if one wants to calculate the height of the tower without actually measuring it then what and how much information is required? Following detail is necessary to find out the height of the tower without measuring it;

- Distance, AB or CD, between the tower and the point where the boy standing.
- The angle of elevation, âˆ EDC, of the top of the tower.
- The height of the boy DA.

In Î”CDE, the known âˆ D is the opposite of the side CE, and it is known that the side CD. So here the trigonometry ratio, that can be used to apply all these three quantities? Determine tan D or cot D as their ratio involves CD and CE.

While calculating the length of the tower or any other object, one should keep in mind the length of the boy to add in the result get from the trigonometry ratio. By the following example, this concept will more clear.

## Angle of Depression

Now consider a situation as in given figure 4, a person is looking towards a ball from a balcony. Its line of sight is below the horizontal level. The angle between the line of sight and horizontal level is called the * angle of depression*.

Thus, the angle of depression of the point on the object is the angle between horizontal level and line of sight when the point is the below horizontal level

In the above figure, the person at point C, is looking towards the ball at B. CB is the line of sight and AC is the height of the balcony.

In Î”BCD, âˆ BCD is the angle of depression of point B. Here is the height of balcony AC = BD and the distance of the ball from the ground foot of the building AB = CD. According to the given data, the trigonometry ratio can be used as it can involve both known and unknown quantities.

### Sample Problems

**Problem 1: A pole stands vertically on the plane. From a point on the plane, which is 12 m away from the foot of the pole, the angle of elevation of the top of the pole is 30Â° Find the height of the pole.**

**Solution: **

First, draw a simple diagram of the given problem as below:

In this figure, BC represents the height of the electric pole and âˆ CAB or âˆ A represents the angle of the elevation of the top of the tower. In Î”ABC, âˆ CAB is the right angle and AB = 12 m. In Î”ABC, CB is needed to be determined i.e. the height of the pole.

To solve the given problem use trigonometry ratio tan A or cot A as they involve given sides in ratios.

Now,

i.e.

or

Hence, the height of the poll is 4âˆš3.

**Problem 2: A boy over serves two clouds from a certain point. The angle of the elevation of the clouds are 30Â° and 45Â°. If the height of the clouds from the** **ground surface is the same and the distance between the clouds is 300 m then find out the height of the cloud.**

Solution:First, draw a simple diagram of the given problem as below.

In this figure, CE and BD represents the height of the clouds and âˆ DAB and âˆ EAC represents the angle of the elevation of the clouds at point A. In Î”ABD, âˆ DBA is the right angle, if the height of cloud BD is h then using trigonometry ratio tan A

i.e.

or

AB = h (Since, tan 45Â° = 1)

In Î”ACE, âˆ ACE is the right angle, if the height of cloud CE is h then using trigonometry ratio as:

i.e.

or

i.e.

AC = hâˆš3

From the above figure 4,

AC = AB + BC

Given: BC = 300.

Therefore,

hâˆš3 = h + 300

i.e.

Hence, the height of the cloud is 410.96 m.

**Problem 3: The angle of elevation of the bird, who was sat on a tree,** **from a point on the ground, which is 60 m away from the foot of the tree, is 60Â°. Find the height of the tree. (Take âˆš3 = 1.73).**

Solution:Firstdraw a simple diagram of the given problem as below:In above figure, AB represents the distance between the ground point and foot of the tree, i.e. 60 m. BC is the height of the tree, letâ€™s assume h.

In Î”ABC, âˆ ABC is the right angle and the angle of the elevation is âˆ B i.e. 60Â°.

Using trigonometry ratio tan A,

or

Hence, the height of the tree is 103.8 m.

**Problem 4: The angle of depression of a bike, standing in a park, from the top of a 45 m high building, is 30Â°. What is the distance of the bike from the base of the building (in m)? **

Solution:Below is a simple diagram of the given problem.

In above figure, AB represents the distance between the base of the building and the bike. AC is the height of the building, i.e. 45 m.

In Î”BCD, âˆ BCD is the right angle and the angle of the depression is âˆ C i.e. 30Â°. Using trigonometry ratio tan C in Î”BCD.

Here AC = BD and AB = CD.

i.e.

Hence, the distance between the base of building and the bike is 77.85 m.

**Problem 5: An electrician needs to repair an electric fault to solve the power supply issue in a village. The height of the electric pole, on which the fault exists, is 7 m. He wants to reach a point below 1.5 m from the top of the pole to repair the fault. What length of the ladder he should use to reach the required position if the ladder inclined at 60Â° to the horizontal? Also find that how far the ladder he should place from the foot of the pole (Take âˆš3 = 1.73).**

Solution:First, Draw a basic diagram of the given problem as below:

In this figure, BC is the ladder, AD is the total length of the pole, Point C is the where electrician wants to reach.

As given CD = 1.5 m and AD = 7 m.

Therefore,

AC = AD â€“ CD

i.e.

AC = 7 â€“ 1.5 m

= 5.5 m

In Î”ABC, âˆ B is 60Â° and âˆ A is right angle,

or

And, in Î”ABC,

or

Hence, the length of the ladder BC is 12.71 m and the distance between ladder and foot of the pole AB is 3.17 m.

**Problem 6: The angle of elevation of a cloud from a point, which is somewhere on the surface of the water of a lake, is 30Â°. The angle of depression of the shadow of a** **cloud in the water of the lake from the same point is 60Â°. If the height of the cloud is 75 m then find the depth of the shadow. (Take âˆš3 = 1.73).**

Solution:First, draw a basic diagram of the given problem as below:

In this figure, AB is the water surface of the lake. Points C and D represent the cloud and its shadow respectively. âˆ ABC and âˆ ABD are the right angles. BC is the height of the cloud, i.e. 75 m and BD is the depth of the shadow. âˆ BAC and âˆ BAD are the angle of elevation and the angle of the depression, i.e. 30

Â°and 60Â°.In Î”ABC,

i.e.

Now in Î”ABD,

or

Hence, the depth of the shadow is 224.46 m.

**Problem 7: Consider the following diagram:**

**If the âˆšACB is the right angle the find the AB and CD (Take âˆš3 = 1.73).**

Solution:In Î”ACD, use the trigonometry ratio sin A,

i.e.

And,

i.e.

In Î”BCD, use the trigonometry ratio ,

i.e.

BC = CD = 2.5 m

From the given figure:

i.e.

AC = AB + BC

or

AB = 4.33 m â€“ 2.5 m

=1.83 m

Hence, AB = 1.83 m and CD = 2.5 m.

**Problem 8: A 1.5 m tall boy is looking toward two buildings. Both buildings have a height of 12 m. The elevation angle of the top of the buildings are 45Â° and 60Â°. Find the distance between the two buildings and the distance of the boy from the near building.**

Solution:A simple diagram of the given problem is drawn below

In the above figure, CB and GH represent the two buildings, CG is the distance between the two buildings, CD and GD is the distance between the boy and foot of the buildings of EB and FH respectively.

In Î”CDE and Î”FDG,

EC = FG = EB â€“ AD (Since, AD = CB = GH)

i.e.

EC = FG = 12 m â€“ 1.5 m

or

EC = FG = 10.5 m

In Î”CDE, âˆ CDE is equal to and âˆ DCE is the right angle.

i.e.

or

In Î”FDG, âˆ FDG is and âˆ FGD is right angle.

i.e.

The distance between the buildings is:

CG = GD â€“ CD

= 10.5 m â€“ 6.07 m

= 4.43 m

Hence, the distance between the buildings CG is 4.43 m and the distance between the boy and the foot of the near building CD is 6.07 m.

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