In an A.P., the sixth term . If the product is maximized, the common difference of the A.P. is equal to:
- A
- B
- C
- D
In an A.P., the sixth term . If the product is maximized, the common difference of the A.P. is equal to:
Correct answer:B
Standard Method
Given: In an A.P., .
Find: The common difference for which the product is maximized.
For an A.P.,
So,
which gives
Detailed Working from Extracted Solution
Now,
and
Source Conclusion and Discrepancy Note
Thus,
the solution states that after taking the derivative and setting it to zero, the maximum occurs at , and it concludes that the correct option is B.
Therefore, the correct option is B.
Treating as . This is wrong because the sixth term in an A.P. is . First write , then express in terms of .
Writing the later terms incorrectly, such as taking or . This shifts the indexing by one. Use carefully.
Maximizing the product without first reducing it to a single-variable function. The product must be written entirely in terms of as before any optimization step is attempted.
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