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प्रश्न
Prove that no matter what the real numbers a and b are, the sequence with the nth term a + nb is always an A.P. What is the common difference?
उत्तर
In the given problem, we are given the sequence with the nth term (`a_n`) as a + nb where a and b are real numbers.
We need to show that this sequence is an A.P and then find its common difference (d)
Here,
`a_n = a + nb`
Now, to show that it is an A.P, we will find its few terms by substituting n = 1, 2, 3
So,
Substituting n = 1, we get
`a_1 = a + (1)b`
`a_1 = a + b`
Substituting n = 2, we get
`a_2 = a+ (2)b`
`a_2 = a + 2b`
Substituting n = 3, we get
`a_3 = a + (3)b`
`a_3 = a + 3b`
Further, for the given to sequence to be an A.P,
Common difference (d) = `a_2 - a_1 = a_3 - a_2`
Here
`a_2 - a_1 = a + 2b - a - b`
= b
Also
a_3- a_2 = a + 3b - a - 2b
= b
Since `a_2 - a_1 = a_3 - a_2`
Hence, the given sequence is an A.P and its common difference is d = b
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