Binomial Theorem Ques 29
The smallest natural number $n$, such that the coefficient of $x$ in the expansion of $(x^{2}+\frac{1}{x^{3}}){}^{n}$ is ${ }^{n} C_{23}$, is
(2019 Main, 10 April II)
(a) 35
(b) 23
(c) 58
(d) 38
Show Answer
Answer:
Correct Answer: 29.(d)
Solution:
Formula:
Properties of binomial theorem:
- Given binomial is $(x^{2}+{\frac{1}{x^{3}}})^{n}$, its $(r+1)^{\text {th }}$ term, is
$ \begin{aligned} T_{r+1} & ={ }^{n} C_{r}\left(x^{2}\right)^{n-r} (\frac{1}{x^{3}})^r={ }^{n} C_{r} x^{2 n-2 r} \frac{1}{x^{3 r}} \\ & ={ }^{n} C_{r} x^{2 n-2 r-3 r}={ }^{n} C_{r} x^{2 n-5 r} \end{aligned} $
For the coefficient of $x$,
$ 2 n-5 r=1 \Rightarrow 2 n=5 r+1 \ldots \text { (i) } $
As coefficient of $x$ is given as ${ }^{n} C_{23}$, then either $r=23$ or $n-r=23$.
If $r=23$, then from Eq. (i), we get
$2 n=5(23)+1$
$\Rightarrow 2 n=115+1 \Rightarrow 2 n=116 \Rightarrow n=58$.
If $n-r=23$, then from Eq. (i) on replacing the value of $r$, we get $2 n=5(n-23)+1$
$\Rightarrow \quad 2 n=5 n-115+1 \quad \Rightarrow \quad 3 n=114 \Rightarrow n=38$
So, the required smallest natural number $n=38$.
BETA
