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induction question - please help! (1 Viewer)

frangipani13

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okay well usually im fairly good at induction but im having a lot of trouble with this...due in on tuesday to my teacher. its from the 1999 hsc paper:

Prove by induction that for all integers >= 1:
(n+1)(n+2)...(2n-1)2n = 2^n [1x2x...x(2n-1)]

its the ... on both sides thats confusing me. its true for n=1 but im stuck on proving it for n=k+1

(k+2)(k+3)...(2k+1)(2k+2) = 2^(k+1) [1x2x...x(2k)]

thanks...any help is much appreciated!
 
P

pLuvia

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Let n=1
S1 = 1 = 1
S1 is true

Assume n=k
.: (k+1)(k+2)...(2k-1)2k = 2k[1x2x...x(2k-1)]

Let n=k+1
.: (k+1)(k+2)...(2k-1)2k x (2k+2)(2k+1) = 2k[1x2x...x(2k-1)] x (2k+2)(2k+1)
= 2k[1x2x...x(2k-1)] x (2k+2)(2k+1)
=

Well this is all I can get up to :( If I can do more I'll post it up :)
 

richz

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hi frangipani13,

ok

Assume n=k
.: (k+1)(k+2)...(2k-1)2k = 2k[1x2x...x(2k-1)]

Prove true for n=k+1
(k+2)(k+3)....(2k-2)(2k-1)2k.2k(2k+1)(2k+2)= 2k+1[1x2x...x(2k+1)]

the term in bold can be simplified, 2k+2=2(k+1)

LHS=2(k+1)(k+2)(k+3)....(2k-1)2k.2k(2k+1)

= 2.2k[1x2x...x(2k-1)]2k(2k+1)

ok now, divide both sides by 2k+1

u see now
 
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MAICHI

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I don't know, I got to an expression which is 2n+1 short, there is something wrong with the question. If you do some algebra you can get this expression from the original question: 2n = (2^n)*n!, which clearly is not possible except for n=1.
 

klaw

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No, her teacher copied the HSC Q wrong
 

Riviet

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Why did you guys multiply by 2 terms instead of 1
i.e (2k+1)(2k+2)
shouldn't it just be multiplied by (2k+2) since you multiply by the k'th term i.e:
2(k+1)=2k+2
If i am right then check this out:
Assume true for n=k
i.e (k+1)(k+2)(k+3)...(2k-1)2k=2k[1x2x3x...x(2k-1)]
Prove for n=k+1
i.e (k+2)(k+3)(k+4)...(2k-1)2k(2k+2)=2k+1[1x2x3x...x(2k+1)]
LHS=(k+2)(k+3)(k+4)...(2k-1)2k(2k+2)
=2[(k+1)(k+2)(k+3)...(2k-1)2k]
=2k[1x2x3x...x(2k-1)][2(2k+1)] by the assumption
=2k+1[1x2x3x...x(2k-1)](2k+1)
=RHS! :):p
 

frangipani13

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no my teacher photocopied a page from the success one book on induction q's...the marker's comments i read said the vast majority of hsc students couldn't do it properly because it involved production rather than addiction. (unfortunately didnt have the solution) im sure the question's right.
 

richz

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well, call the maths book to fuck a duck, check out the website, it even says 3.
 

klaw

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Riviet said:
Why did you guys multiply by 2 terms instead of 1
i.e (2k+1)(2k+2)
shouldn't it just be multiplied by (2k+2) since you multiply by the k'th term i.e:
2(k+1)=2k+2
If i am right then check this out:
Assume true for n=k
i.e (k+1)(k+2)(k+3)...(2k-1)2k=2k[1x2x3x...x(2k-1)]
Prove for n=k+1
i.e (k+2)(k+3)(k+4)...(2k-1)2k(2k+2)=2k+1[1x2x3x...x(2k+1)]
LHS=(k+2)(k+3)(k+4)...(2k-1)2k(2k+2)
=2[(k+1)(k+2)(k+3)...(2k-1)2k]
=2k[1x2x3x...x(2k-1)][2(2k+1)] by the assumption
=2k+1[1x2x3x...x(2k-1)](2k+1)
=RHS! :):p
No. 2n+1 is an AP, where the common difference is 2. Therefore the number increases by 2 every time. Therefore 1*2*3*... does not fit in the series. You can see it's wrong just from the Q.
 

Riviet

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Oo i see, yeah you're right it goes up by one at the start and ends up going by 2 lol. :uhhuh:
 

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