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प्रश्न
If Sn denote the sum of the first n terms of an A.P. If S2n = 3Sn, then S3n : Sn is equal to
पर्याय
4
6
8
10
उत्तर
Here, we are given an A.P. whose sum of n terms is Sn and `S_(2m) = 3S_n`.
We need to find `(S_(3m))/(S_n)`.
Here we use the following formula for the sum of n terms of an A.P.
`S_n = n/2 [2a + (n -1) d]`
Where; a = first term for the given A.P.
d = common difference of the given A.P.
n = number of terms
So, first we find S3n,
`S_(3m) = (3n)/2 [2a + (3n - 1)d]`
` = (3n)/2 [2a + 3nd - d ]` ................(1)
Similarly
`S_(2n) = (2n)/2[2a + (2n - 1 )d]`
`= (2n)/2 [2a + 2nd - d]` ............(2)
Also,
`S_n = n/2[2a + (n-1)d]`
`=n/2 [2a + nd - d]` ................(3)
Now, `S_(2n) = 3S_n`
So, using (2) and (3), we get,
`(2n)/2 ( 2a + 2nd - d ) = 3 [n/2 (2a + nd - d)]`
`(2n)/2 (2a + 2nd - d) = (3n)/2 (2a + nd - d)`
On further solving, we get,
2(2a + 2nd - d ) = 3 (2a + nd - d)
4a + 4nd - 2d = 6a + 3nd - 3d
2a = nd + d .....................(4)
So,
`(S_(3n))/(S_n) = ((3n)/2 [ 2a + 3nd -d])/(n/((2)) [ 2a + nd - d ])`
Taking `n/2` common, we get,
`S_(3n)/(S_n) = (3(2a + 3nd - d))/(2a + nd - d)`
`=(3(nd + d + 3nd - d))/((nd + d + nd - d))` (Using 4)
`= (3(4nd))/(2nd)`
= 6
Therefore, `S_(3n)/(S_n) = 6`
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