SATHEE: Binomial-Theorem-And-Its-Simple-Applications Question 226

Binomial-Theorem-And-Its-Simple-Applications Question 226

Question: By the principle of induction $ \forall n\in N,3^{2n} $ when divided by 8, leaves remainder

Options:

A) 2

B) 3

C) 7

D) 1

Show Answer

Answer:

Correct Answer: D

Solution:

[d] Let P (n) be the statement given by $ P(n):3^{2n} $ when divided by 8, the remainder is 1. or $ P(n):3^{2n}=8\lambda +1 $ for some $ \lambda \in N $
For $ n=1,,P(1):3^{2}=(8\times 1)+1=8\lambda +1, $ where $ \lambda =1 $

$ \therefore ,P(1) $ is true. Let P (k) be true. Then $ 3^{2k}=8\lambda +1 $ for some $ \lambda \in N $ ? (i) We shall now show that $ P(k+1) $ is true, for which we have to show that $ {3^{2(k+1)}} $ when divided by 8, the remainder is 1. Now $ {3^{2(k+1)}}=3^{2k}{{.3}^{2}} $
$ =(8\lambda +1)\times 9 $ [Using (i)] $ =72\lambda +9=72\lambda +8+1=8(9\lambda +1)+1 $
$ =8\mu +1, $ where $ \mu =9\lambda +1\in N $

$ \Rightarrow P(k+1) $ is true. Thus, $ P(k+1) $ is true, whenever P(k) is true. Hence, by the principle of mathematical induction $ P(n) $ is true for all $ n\in N $ .

Binomial-Theorem-And-Its-Simple-Applications Question 226

Question: By the principle of induction $ \forall n\in N,3^{2n} $ when divided by 8, leaves remainder

Options:

Answer:

Solution:

Engineering Preparation

Medical Preparation

NCERT Books & Solutions

Important Resources

Other Resources

Syllabus

Mentorship

Binomial-Theorem-And-Its-Simple-Applications Question 226

Question: By the principle of induction $ \forall n\in N,3^{2n} $ when divided by 8, leaves remainder

Options:

Answer:

Solution:

Engineering Preparation

Medical Preparation

NCERT Books & Solutions

Important Resources

Other Resources

Syllabus

Mentorship

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