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The model of a building is constructed with the scale factor 1 : 30.
(i) If the height of the model is 80 cm, find the actual height of the building in meters.
(ii) If the actual volume of a tank at the top of the building is 27m3, find the volume of the tank on the top of the model.
Concept: Mensuration of a Sphere
A solid sphere is cut into two identical hemispheres.
Statement 1: The total volume of two hemispheres is equal to the volume of the original sphere.
Statement 2: The total surface area of two hemispheres together is equal to the surface area of the original sphere.
Which of the following is valid?
Concept: Mensuration of a Sphere
Prove the following identities, where the angles involved are acute angles for which the expressions are defined:
`(sin theta-2sin^3theta)/(2cos^3theta -costheta) = tan theta`
Concept: Trigonometric Identities (Square Relations)
The angles of depression of two ships A and B as observed from the top of a light house 60 m high are 60° and 45° respectively. If the two ships are on the opposite sides of the light house, find the distance between the two ships. Give your answer correct to the nearest whole number.
Concept: Trigonometric Identities (Square Relations)
If `x/a=y/b = z/c` show that `x^3/a^3 + y^3/b^3 + z^3/c^3 = (3xyz)/(abc)`.
Concept: Trigonometric Identities (Square Relations)
Prove that `cosA/(1+sinA) + tan A = secA`
Concept: Trigonometric Identities (Square Relations)
Prove that `sqrt(sec^2 theta + cosec^2 theta) = tan theta + cot theta`
Concept: Trigonometric Identities (Square Relations)
Prove that (1 + cot θ – cosec θ)(1+ tan θ + sec θ) = 2
Concept: Trigonometric Identities (Square Relations)
Without using trigonometric tables evaluate:
`(sin 65^@)/(cos 25^@) + (cos 32^@)/(sin 58^@) - sin 28^2. sec 62^@ + cosec^2 30^@`
Concept: Trigonometric Ratios of Complementary Angles
Prove that `(sin theta)/(1-cottheta) + (cos theta)/(1 - tan theta) = cos theta + sin theta`
Concept: Trigonometric Identities (Square Relations)
Show that `sqrt((1-cos A)/(1 + cos A)) = sinA/(1 + cosA)`
Concept: Trigonometric Identities (Square Relations)
Evaluate without using trigonometric tables:
`cos^2 26^@ + cos 64^@ sin 26^@ + (tan 36^@)/(cot 54^@)`
Concept: Trigonometric Identities (Square Relations)
As observed from the top of an 80 m tall lighthouse, the angles of depression of two ships on the same side of the lighthouse of the horizontal line with its base are 30° and 40° respectively. Find the distance between the two ships. Give your answer correct to the nearest meter.
Concept: Trigonometric Identities (Square Relations)
Prove that `(tan^2 theta)/(sec theta - 1)^2 = (1 + cos theta)/(1 - cos theta)`
Concept: Trigonometric Identities (Square Relations)
Prove that (cosec A – sin A)(sec A – cos A) sec2 A = tan A.
Concept: Trigonometric Identities (Square Relations)
Without using trigonometric tables evaluate
`(sin 35^@ cos 55^@ + cos 35^@ sin 55^@)/(cosec^2 10^@ - tan^2 80^@)`
Concept: Trigonometric Identities (Square Relations)
Prove that:
(cosec θ - sinθ )(secθ - cosθ ) ( tanθ +cot θ) =1
Concept: Trigonometric Identities (Square Relations)
Simplify
sin A `[[sinA -cosA],["cos A" " sinA"]] + cos A[[ cos A" sin A " ],[-sin A" cos A"]]`
Concept: Trigonometric Identities (Square Relations)
Prove that:
`(sin A + cos A)/(sin A - cos A) + (sin A - cos A)/(sin A + cos A) = 2/(2 sin^2 A - 1)`
Concept: Trigonometric Identities (Square Relations)
tan θ × `sqrt(1 - sin^2 θ)` is equal to:
Concept: Trigonometric Identities (Square Relations)
