Q) The roots of equation (q – r) x² + (r – p) x + (p – q) = 0 are equal. Prove that: 2q = p + r, that is, p, q & r are in A.P.
ICSE Specimen Question Paper (SQP)2025
Ans:
Step 1: Given the polynomial: (q – r) x 2 + (r – p) x + (p – q) = 0
When we compare it standard quadratic equation, a x 2 + b x + c = 0, we get:
a = (q – r), b = ( r – p) and c = (p – q)
Step 2: We know that when roots of a polynomial are equal, then its discriminant is zero.
∴ D = 0
∴ b 2 – 4 a c = 0
∴ (r – p) 2 – 4 (q – r) (p – q) = 0
∴ r 2 + p 2 – 2 r p – 4 (q p – q 2 – r p + r q) = 0
∴ r 2 + p 2 – 2 r p – 4 q p + 4 q 2 + 4 r p – 4 r q = 0
∴ (r 2 + p 2 + 2 r p) + 4 q 2 – 4 q p – 4 r q = 0
∴ (p + r) 2 + (2 q) 2 – 4 q (p + r) = 0
∴ (p + r) 2 + (2 q) 2 – 2 (2 q) (p + r) = 0
∴ (p + r – 2 q) 2 = 0
∴ p + r – 2 q =0
∴ 2 q = p + r
Therefore, p, q, r are in AP.
(∵ common difference d = r – q = q – p)
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