Advertisements
Advertisements
प्रश्न
If (m + 1)th term of an A.P is twice the (n + 1)th term, prove that (3m + 1)th term is twice the (m + n + 1)th term.
उत्तर
Here, we are given that (m+1)th term is twice the (n+1)th term, for a certain A.P. Here, let us take the first term of the A.P. as a and the common difference as d
We need to prove that `a_(3m + 1) = 2a_(m + n +1)`
So, let us first find the two terms.
As we know,
`a_n = a + (n' - 1)d`
For (m+1)th term (n’ = m+1)
`a_(m + 1) = a + (m + 1 - 1)d`
= a + md
For (n+1)th term (n’ = n+1),
`a_(n +1) = a + (n + 1 -1)d`
= a + nd
Now, we are given that `a_(m + 1) = 2a_(n +1)`
So we get
a + md = 2(a + nd)
a + md = 2a + 2nd
md - 2nd = 2a - a
(m - 2n)d = a ...........(1)
Further, we need to prove that the (3m+1)th term is twice of (m+n+1)th term. So let us now find these two terms,
For (m + n + 1)th term (n' = m + n +1)
`a_(m + n + 1) = a + (m +n +1 -1)d`
= (m - 2n)d + (m + n)d
= md - 2nd + md + nd (Using 1)
= 2md - nd
For (3m+1)th term (n’ = 3m+1),
`a_(3m +1) = a + (3m + 1 -1)d`
= (m - 2n)d + 3md (using 1)
= md - 2nd + 3md
= 4md - 2nd
= 2(2md - nd)
Therfore `a_(3m + 1) = 2a_(m + n + 1)`
Hence proved
APPEARS IN
संबंधित प्रश्न
In an AP, given a = 7, a13 = 35, find d and S13.
Find the sum of the first 25 terms of an A.P. whose nth term is given by an = 7 − 3n
Find the sum 3 + 11 + 19 + ... + 803
How many two-digits numbers are divisible by 3?
Find the sum of the first n natural numbers.
If the sum of first p terms of an A.P. is equal to the sum of first q terms then show that the sum of its first (p + q) terms is zero. (p ≠ q)
If four numbers in A.P. are such that their sum is 50 and the greatest number is 4 times, the least, then the numbers are
If 18, a, b, −3 are in A.P., the a + b =
Suppose the angles of a triangle are (a − d), a , (a + d) such that , (a + d) >a > (a − d).
The first term of an AP is –5 and the last term is 45. If the sum of the terms of the AP is 120, then find the number of terms and the common difference.
