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प्रश्न
If the roots of the equation (c2 – ab)x2 – 2(a2 – bc)x + (b2 – ac) = 0 are real are equal, show that either a = 0 or (a3 + b3 + c3) = 3abc.
योग
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उत्तर
Given: The quadratic (c2 – ab)x2 – 2(a2 – bc)x + (b2 – ac) = 0 has real and equal roots (discriminant = 0).
Step-wise calculation:
1. Discriminant D = [–2(a2 – bc)]2 – 4(c2 – ab)(b2 – ac)
2. So, `D/4 = (a^2 - bc)^2 - (c^2 - ab)(b^2 - ac) = 0`.
3. Expand: (a2 – bc)2 = a4 – 2a2bc + b2c2.
(c2 – ab)(b2 – ac) = b2c2 – ac3 – ab3 + a2bc.
4. Subtracting gives 0 = a4 – 2a2bc + b2c2 – (b2c2 – ac3 – ab3 + a2bc)
= a4 – 3a2bc + ac3 + ab3
5. Factor out a: 0 = a(a3 + b3 + c3 – 3abc).
Therefore, either a = 0 or a3 + b3 + c3 = 3abc.
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