A man on a cliff observes a boat at an angle of depression of 30°

Leave a Comment / Class 10th, trigonometry applications / By Sapling Academy

Q) A man on a cliff observes a boat at an angle of depression of 30° which is approaching the shore to the point immediately beneath the observer with a uniform speed. Six minutes later, the angle of depression of the boat is found to be 60°. Find the time taken by the boat from here to reach the shore.

Ans: Let’s start with the diagram for this question:

Here, let’s consider AB is the cliff and the boat initially at point D, and then after 6 minutes, it is at point C.

Given that the angle of depression from point B at the Tower top to the boat at Point D is 30⁰, the elevation angle from D to point B will be 30⁰.

Similarly, since the angle of depression from point B at the Tower top to the boat at Point C is 60⁰, the elevation angle from C to point B will be 60⁰.

Let’s consider the distance covered by the car from point D to point C is D₁ and the distance from C to point A at the foot of the tower is D₂.

Step 2: Find the distance D₁:

In Δ ABD,

tan 30 = $\frac{AB}{AD}$

∴ $\frac{1}{\sqrt3} = \frac{H}{AD}$

∴ AD = H√ 3….. (i)

Similarly, in Δ ABC,

tan 60 = $\frac{AB}{AC}$

∴ √ 3 = $\frac{H}{D_2}$

∴ D₂ = $\frac{H}{\sqrt3}$ ….. (ii)

We can see that CD = AD – CD or D₁ = AD – D₂

Substituting the values from equations (i) and (ii), we get

D₁ = H √3 – $\frac{H}{\sqrt3}$

∴ D₁ = H(√3 – $\frac{1}{\sqrt3}$ )

∴ D₁ = H( $\frac{3 - 1}{\sqrt3}$ )

∴ D₁= $\frac{2H}{\sqrt3}$

Step 3: Find the speed of the boat

Now, it is given that this distance is covered in 6 minutes

We know that: Speed = $\frac{Distance}{Time}$

∴ Speed = $\frac {\frac{2H}{\sqrt3}}{6}$

∴ Speed = $\frac{H}{3 \sqrt3}$

Step 4: Find the time taken to cover CA

Now the car will cover distance D₂ with the speed of $\frac{H}{3 \sqrt3}$

We know that: Speed = $\frac{Distance}{Time}$

∴ Time = $\frac{Distance}{Speed}$

Substituting the values of distance and speed, we get

Time = $\frac{(\frac{H}{\sqrt3})}{(\frac{H}{3 \sqrt3})} = \frac{H \times 3 \sqrt3}{H \sqrt3}$

∴ Time = $\frac{\cancel {H} \times 3 \cancel{\sqrt3}}{\cancel{H} \cancel{\sqrt3}}$

∴ Time = 3 minutes

Therefore, the distance from point C to point A will be covered in 3 minutes.

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