Question 1. Show that 43^n + 83 x 92^(3n - 1) is divisible for all positive intergers n.
Question 2. A florist has to make a floral arrangement. She has 6 banksias, 5 wattles and 4 waratahs. All the flowers of each kind are different. In how many ways can the florist make a bunch of 10 flowers if she has to use at least 3 of each kind?
Maths Question, HELP!?
1) 43^n + 83 x 92^(3n - 1)
***You can solve this with recurrence:
1- Prove this is true for n=1
2- Prove that if it is true for n, it is also true for n+1
Then it is true for any strictly positive integer
**************
For n =1
P(1) = 43^1 + 83*92^(3-1)= 702,555
702,555 = 7*100,365
So it is true for n=1
**************
if it is true for n, then P(n) = 43^n+83*92^(3n-1) = 7q
where q is an integer.
Let us know verify it is true for n+1:
P(n+1) = 43^(n+1) + 83*92^(3n+3-1)
P(n+1)= 43^(n+1) + 83*92^(3n-1)*92^2
we know that: 83*92^(3n-1) = 7p - 43^n
Let us replace that in the previous formula:
P(n+1) = 43^(n+1) + (7p - 43^n)*92^2
P(n+1) = 7p*92^2 + 43^(n+1) - 43^n*92^2
P(n+1) = 7p*92^2 +43^n(43-92^2)
P(n+1) = 7p*92^2 - 43^n*8,421
8,421 = 7*1,203, so:
P(n+1) = 7(p*92^2 -43^n*1,203)
P(n+1) is divisible by 7.
so P(n) is divisible by any integer n%26gt;0
Question 2. A florist has to make a floral arrangement. She has 6 banksias, 5 wattles and 4 waratahs. All the flowers of each kind are different. In how many ways can the florist make a bunch of 10 flowers if she has to use at least 3 of each kind?
Pick a banksia = 6
Pick a banksia = 5
Pick a banksia = 4
Pick a wattle = 5
Pick a wattle = 4
Pick a wattle = 3
Pick a waratah = 4
Pick a waratah = 3
Pick a waratah = 2
Remaining flowers = 3 banksias, 2 wattles and 1 waratah = 6
Pick a banksia / wattle /waratah = 6
So, total ways
6 x 5 x 4 x 5 x 4 x 3 x 4 x 3 x 2 x 6 = 1036800
Reply:And provide CORRECT answer (1036800???) too! Report It
Reply:Q1. Divisible by what, I don%26#039;t see? By 7 as Mika has supposed? Well, that can be done directly, which is much shorter than inductively:
43 = 42 + 1 = 7*6 + 1≡ 1 (mod 7);
83 = 84 - 1 = 7*12 - 1 ≡ -1 (mod 7);
92 = 91 +1 = 7*13 + 1 ≡ 1 (mod 7), so
43^n + 83 x 92^(3n - 1) ≡ 1^n - 1*1^(3n-1) ≡ 1 - 1 ≡ 0 (mod 7).
Q2. Sum 10 can be obtained by 3 ways:
10 = 3 + 3 + 4 = 3 + 4 + 3 = 4 + 3 + 3, then the answer is
(6C3)*(5C3)*(4C4) + (6C3)*(5C4)*(4C3) + (6C4)*(5C3)*(4C3) =
200 + 400 + 600 = 1200, much less (3!3!4! = 6*6*24 times) than Mika has found.
Here nCr is the number of combinations of %26quot;n%26quot; things, taken %26quot;r%26quot; at a time.
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