Let `f(n)` denote the `n^(th)` terms of the seqence of `3,6,11,18,27,….` and `g(n)` denote the `n^(th)` terms of the seqence of `3,7,13,21,….` Let `F(n)` and `G(n)` denote the sum of `n` terms of the above sequences, respectively. Now answer the following: `lim_(ntooo)(F(n))/(G(n))=`
Let f (n) denote the n^(th) term of the sequence 2, 5, 10, 17, 26,..... and g(n) denotes the n^(th) term of sequence 2, 6, 12, 20, 30, ...... Let F(n) and G(n) denote respectively the sum of n terms of the above sequences. lim_(n->oo)(f(n))/(g(n))=
The n^(th) term of the sequence is 3n-2. Is the sequence an AP.If so; find the 10 th term .
If S_(n), denotes the sum of n terms of an AP, then the value of (S_(2n)-S_(n)) is equal to
Find the sum to n terms of the series whose n^(th) term is n(n+1)(n+4)
If S_(n) denotes the sum of first n terms of an arithmetic progression and an denotes the n^(th) term of the same A.P.given S_(n)=n^(2)p; where p,n in N, then
The 4 th and 7 th terms of a G.P.are (1)/(27) and (1)/(729) respectively.Find the sum of n terms of the G.P.
If the m^(th) term of a G.P is n and n^(th) term be m then find the (m+n)^(th) term
CENGAGE-PROGRESSION AND SERIES-ARCHIVES (MATRIX MATCH TYPE )
