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Permutations and Combinations question (1 Viewer)

apollo1

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6 Envelopes are arranged in a straight line and numbered 1 to 6. Find the number of ways in which 6 different letters can be arranged one in each envelope if:

(i) letter A is not in envelope 1 and letter B is not in envelope 2.

:)
 

michaeljennings

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6 Envelopes are arranged in a straight line and numbered 1 to 6. Find the number of ways in which 6 different letters can be arranged one in each envelope if:

(i) letter A is not in envelope 1 and letter B is not in envelope 2.

:)
i think from memory it was 5x5x4!
 

math man

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yeh stupid perm questions...first look at the case where there are no restrictions: 6!
next look at the case when A is in env 1 and B in env 2 (the only case we dont want), this occurs in 4! ways
so total ways therefore where A not in env1 and B not in env 2 is: 6! - 4! = 696
 

michaeljennings

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yeh stupid perm questions...first look at the case where there are no restrictions: 6!
next look at the case when A is in env 1 and B in env 2 (the only case we dont want), this occurs in 4! ways
so total ways therefore where A not in env1 and B not in env 2 is: 6! - 4! = 696
Whattt I dont understand, I did this question yesterday and I swear the solution had the same reasoning you had to begin with and not this one

Because what about if A is in env1 and B is not in env2, you cant have this scenario either so you must subtract this one from total same as A is not in env1 but B is in env2
 

math man

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I editted my post can you take a look at it because now im confused
it's cause if it is A has 5 to choose from and B has 5 to choose from then they can coincide in one env, which is not allowed, only one letter is allowed in each env
 

hup

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yes how did you get it?
_ _ _ _ _ _

6 spaces to be filled

if first is

B; 1 x 5!
c; 1 x 4 x 4!
D; 1 x 4 x 4!
etc until F


then add the no of ways = 5! +4(4x4!)
 

math man

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With my above reasoning i forgot to think of all cases:
So no restrictions means there are 6!=720 ways..

Now we dont want A is position one, A can be in position 1 in 5!=120 ways

Also, we dont want B in position two, B can be in position two in 5!=120 ways

Now, the number of ways A and B are not in 1st and 2nd position is 720 -120-120 = 480

However, when i minus by both i am minusing their intersection in 1st and 2nd position twice.

They are, as mentioned above, in 1st and 2nd position 4!=24 ways. Therefore i need to add this to 480 to get the total number of ways A and B are not in 1st and 2nd position.

Hence, the total number of ways is 504
 

math man

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_ _ _ _ _ _

6 spaces to be filled

if first is

B; 1 x 5!
c; 1 x 4 x 4!
D; 1 x 4 x 4!
etc until F


then add the no of ways = 5! +4(4x4!)
This is perfectly right, however in comb/perm questions you dont wanna be looking at every case, you wanna look at total cases and then minus number of cases in which our restriction is breached, but props to your soln
 

hup

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because youre on this

denotes the number of ways in which 2n distinct items can be paired off (order unimportant)

obv =1

explain why =3

and deduce that

 

td547

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_ _ _ _ _ _

6 spaces to be filled

if first is

B; 1 x 5!
c; 1 x 4 x 4!
D; 1 x 4 x 4!
etc until F


then add the no of ways = 5! +4(4x4!)
wow hup!! great work mate, solution is perfect, tyy!
 

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