show that one and only one out of n, n+2, n+4 is divisible by 3 , where n is any positive integer
Answers
We applied Euclid Division algorithm on n and 3.
a = bq +r on putting a = n and b = 3
n = 3q +r , 0<r<3
i.e n = 3q -------- (1),n = 3q +1 --------- (2), n = 3q +2 -----------(3)
n = 3q is divisible by 3
or n +2 = 3q +1+2 = 3q +3 also divisible by 3
or n +4 = 3q + 2 +4 = 3q + 6 is also divisible by 3
Hence n, n+2 , n+4 are divisible by 3.
Step-by-step explanation:
Question :-
→ Prove that one and only one out of n, n + 2 and n + 4 is divisible by 3, where n is any positive integer .
▶ Step-by-step explanation :-
Euclid's division Lemma any natural number can be written as: .
where r = 0, 1, 2,. and q is the quotient.
∵ Thus any number is in the form of 3q , 3q+1 or 3q+2.
→ Case I: if n =3q
⇒n = 3q = 3(q) is divisible by 3,
⇒ n + 2 = 3q + 2 is not divisible by 3.
⇒ n + 4 = 3q + 4 = 3(q + 1) + 1 is not divisible by 3.
→ Case II: if n =3q + 1
⇒ n = 3q + 1 is not divisible by 3.
⇒ n + 2 = 3q + 1 + 2 = 3q + 3 = 3(q + 1) is divisible by 3.
⇒ n + 4 = 3q + 1 + 4 = 3q + 5 = 3(q + 1) + 2 is not divisible by 3.
→ Case III: if n = 3q + 2
⇒ n =3q + 2 is not divisible by 3.
⇒ n + 2 = 3q + 2 + 2 = 3q + 4 = 3(q + 1) + 1 is not divisible by 3.
⇒ n + 4 = 3q + 2 + 4 = 3q + 6 = 3(q + 2) is divisible by 3.
Thus one and only one out of n , n+2, n+4 is divisible by 3.
Hence, it is solved.