Web2. The angle of elevation of the top of a building from the foot of the tower is 300 and the angle of elevation of the top of the tower from the foot of the building is 600. If the tower is 30m high, find the height of the bulding. 3. two poles of equal heights are standing opposite to each other on either side of the road, which is 120 feet wide. Web29 mrt. 2024 · Steps of construction Draw a circle of radius 6 cm Draw horizontal radius OQ 3. Draw angle 120° from point O Let the ray of angle intersect the circle at point R Now, draw 90° from point Q 5. Draw 90° from point R 6. Where the two arcs intersect, mark it as point P ∴ PQ and PR are the tangents at an angle of 60° Finding Length of the ...
If two tangents are inclined at an angle $ { {60}^ {\\circ }}$, are ...
WebSolutions for If two tangents are drawn at the end points of two radii of a circle which are inclined at120°to each other, then the pair of tangents will be inclined to each other at … Web8 mrt. 2024 · If in two right angle triangles the hypotenuses and either of the sides other than the hypotenuses are equal, then the two triangles are congruent with all … bottle mister
If two tangents inclinced at an angle `60^@` are drawn to a …
Web2 mrt. 2024 · If two tangents inclined at an angle of 90, are drawn to a circle of radius 3cm, then the length of each tangent is Advertisement Expert-Verified Answer 5 people found it helpful JackelineCasarez 3 cm is the length of each tangent. Step-by-step explanation: As we know, Tan 45° = AP/AO 1 = AP/AO ∵ AP = AO AP = 3 Web28 mrt. 2024 · If two tangents inclined at an angle of 60ᵒare drawn to a circle of radius 3cm, then the length of each tangent is equal to(a) (3√3)/2 cm (b) 3cm (c) 6cm (d) 3√3 … WebIf the angle between two tangents drawn from an external point P to a circle of radius a and a center O, is 60 o , then find the length of OP. Medium Solution Verified by Toppr Ap=BP .... (length of tangents from external point to circle are equal) ∠A=∠B=90 o .... (Tangent is ⊥ to radius) OP=OP .... (common side) ∴ AOP≅ BOP .... haymanpartners.com.au