Man observed to vertical pole which are opposite to each other then either for off road if the width of the road is 90 feet the height of the pole or in the ratio of 1 is to 2 also the angle of elevation of their top from a point between the line joining the foot of the pole on the road is 60 degree then find the height of the pole
Answers
Answer:
Distance between the foot of the tower and point of observation = 20 m = BC ... Height of the electric pole = 10 m = AB ... If in right angle triangle one of the included angles is θ then.
FINAL ANS - The height of the poles are 30√3 feet and 60√3 feet
★ TO FIND : HEIGHTS OF POLES
★ SOLUTION :
AB = h₁ = height of the first pole
ED = h₂ = height of the second pole
BD = distance between the two poles = 90 feet
Angle of elevation from point C to the top of AB = θ₁ = 60°
Angle of elevation from point C to the top of ED = θ₂ = 60°
★Let the distance of point C from the foot of AB be “BC”, then the distance of point C from the foot of ED will be “CD = (90 - BC)”.
★Since it is given that the ratio of the heights of the pole are 1:2 .
★So, if the height of the first pole AB is “h1” then the height of the second pole ED will be "h2 = 2h1”.
Now, Consider ΔABC, applying the trigonometric ratios of a triangle, we get
tan θ₁ = perpendicular/base
⇒ tan 60° = AB/BC
⇒ √3 = h₁/BC
⇒ h1 = BC√3 … (i)
★and, Consider ΔEDC, applying the trigonometric ratios of a triangle, we get
tan θ₂ = perpendicular/base
⇒ tan 60° = ED/CD
⇒ √3 = h₂/(90 - BC)
⇒ 2h1 = √3 [90 - BC]
⇒ h1 = (√3/2) [90 - BC] … (ii)
From (i) & (ii), we get
BC√3 = (√3/2) [90 - BC]
⇒ 2BC = 90 – BC
⇒ 2BC + BC = 90
⇒ 3BC = 90
⇒ BC = 90/3
⇒ BC = 30 feet
Substituting the value of BC in (i) , we get
h1 = BC√3 = 30√3 feet
∴ h2 = 2 * h1 = 2 * 30√3 = 60√3 feet
HOPE IT HELPS U :)