Please answer ALL parts and please show ALL work. 1. Prove that if 5 | na...
PLEASE SHOW WORK
Question 3 Use mathematical induction to prove 3+7+11+ ... +(4n – 1) = n (2n + 1). • Show P1 is true. • Assume Pk is true. • Show Pk+1 is true.
1. Pron, wing malaman na may pantay 2, 1. Prove, using mathematical induction, that for all n > 1, (2n + 2) (n+1)
Please note n's are superscripted. (a) Use mathematical induction to prove that 2n+1 + 3n+1 ≤ 2 · 4n for all integers n ≥ 3. (b) Let f(n) = 2n+1 + 3n+1 and g(n) = 4n. Using the inequality from part (a) prove that f(n) = O(g(n)). You need to give a rigorous proof derived directly from the definition of O-notation, without using any theorems from class. (First, give a complete statement of the definition. Next, show how f(n) =...
QUESTION 3 Show all your work on mathematical induction proofs Use mathematical induction to prove the formula for every positive integer n
Discrete math show all work please
Use mathematical induction to prove that the statements are true for every positive integer n. n[xn - (x - 2)] 1 + [x2 - (x - 1)] + [x:3 - (x - 1)] + ... + x n - (x - 1)] = 2 where x is any integer = 1
number 3 please using induction
(1) Prove that 12 + 22 + . . . + ㎡ = n(n +1 )(2n + 1) (2) Prove that 3 +11+...(8n -5) n 4n 1) for all n EN (3) Prove that 12-22 +3° + + (-1)n+1㎡ = (-1)"+1 "("+DJ for al for all n EN (3) Pow.thatF-2, + У + . .. +W"w.(-1r..l-m all nEN
Question 3 Use mathematical induction to prove 3 + 7 + 11 +. + (4n - 1) = n (2n + 1). Show P1 is true. Assume Pk is true. Show Pk11 is true.
please answer all the questions.
just rearranging. Explanation is not needed.
Use modular arithmetic to prove that 3|(221 – 1) for an integer n > 0. Hence, 3|(221 – 1) for n > 0. To show that 3|(221 – 1), we can show that (221 – 1) = 0 (mod 3). We have: (221 – 1) = (4” – 1) (mod 3) Then, (22n – 1) = (1 - 1) = 0 (mod 3) Since 4 = 1 (mod 3),...
Discrete Math Question.
(8 pts) Use mathematical induction to prove 13 + 33 +53 + ... + (2n + 1)3 = (n + 1)?(2n+ 4n +1) for all positive integers n.
prove each of the following theorems using weak
induction
1 Weak Induction Prove each of the following theorems using weak induction. Theorem 1. an = 10.4" is a closed form for an = 4an-1 with ao = 10. Theorem 2. an = (-3)"-1.15 is a closed form for an = -3an-1 with a1 = 15. Theorem 3. In E NU{0}, D, 21 = 2n+1 -1. Theorem 4. Vn e N, 2" <2n+1 - 2n-1 – 1. Theorem 5. In E...