Q) A Ferris wheel (or a big wheel in the United Kingdom) is an amusement ride consisting of a rotating upright wheel with multiple passenger-carrying components (commonly referred to as passenger cars, cabins, tubs, capsules, gondolas, or pods) attached to the rim in such a way that as the wheel turns, they are kept upright, usually by gravity.
After taking a ride in Ferris wheel, Aarti came out from the crowd and was observing her friends who were enjoying the ride . She was curious about the different angles and measures that the wheel will form. She forms the figure as given below.
1. In the given figure find ∠ ROQ
a) 60 b) 100 c) 150 d) 90
2. Find ∠ RQP
a) 75 b) 60 c) 30 d) 90
3. Find ∠ RSQ
a) 60 b) 75 c) 100 d) 30
4. Find ∠ ORP
a) 90 b) 70 c) 100 d) 60
Ans:
1. ∠ ROQ: 
Step 1: In Quadrilateral PQOR, sum of all angles is 360
∴ ∠ PRO + ∠ ROQ + ∠ OQP + ∠ QPR = 360 ……….. (i)
Step 2: Since radii OQ and OR are perpendicular to the tangents,
∴ ∠ OQP = ∠ PRO = 90
∠ QPR = 30 (given)
Step 3: By substituting these values in equation (i), we get:
90 + ∠ ROQ + ∠ 90 + 30 = 360
∴ ∠ ROQ = 360 – 210
∴ ∠ ROQ = 150
Therefore, option (c) is correct.
2. ∠ RQP:
Step 4: ∵ Sum of all angles of a triangle is 180
∴ ∠ OQR + ∠ ORQ + ∠ ROQ = 180 ……….. (ii)
Step 5: In Δ QOR, OQ = OR (radii of a circle)
∴ ∠ OQR = ∠ ORQ (angle opposite to equal sides)
Also ∠ ROQ = 150 (from step 3 above)
Step 6: By substituting these 2 values in equation (ii), we get:
∴ ∠ OQR + ∠ OQR + ∠ ROQ = 180
∴ 2 ∠ OQR + 150 = 180
∴ 2 ∠ OQR = 180 – 150 = 30
∴ ∠ OQR = 
= 15
Step 7:
∵ ∠ OQP = ∠ OQR + ∠ RQP
Step 8: Here, ∠ OQP = 90 (radius OQ is 
to tangent PQ)
and ∠ OQR = 15 (calculated in Step 6 above)
Step 9: By substituting these values in equation (i), we get:
∵ ∠ OQP = ∠ OQR + ∠ RQP
∴ 90 = 15 + ∠ OQR
∴ ∠ OQR = 90 – 15
∴ ∠ OQR = 75
Therefore, option (a) is correct.
3. ∠ RSQ:
Step 10: By inscribed angle theorem, we know that “the angle subtended by an arc at the center of a circle is twice the angle subtended by the arc at any point on the circumference.”
∴ ∠ ROQ = 2 ∠ RSQ
∴ ∠ RSQ = 
∠ ROQ
Step 11: ∠ ROQ = 150 (from step 3 above)
Step 12: By substituting these values in equation (i), we get:
∵ ∠ RSQ = ∠ ROQ
∴ ∠ RSQ = (150)
∴ ∠ RSQ = 75
Therefore, option (a) is correct.
4. ∠ ORP:
Step 13: Since radius OR is perpendicular to the tangent PR,
∴ ∠ ORP = 90
Therefore, option (a) is correct.
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