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# FP1 edexcel specification query watch

1. (Original post by Jai Sandhu)
Yes, it gives you terms in n as n is a constant, are you clear as to why we have n+1 though?
Err....Maybe...not sure!
2. (Original post by Mutleybm1996)
Err....Maybe...not sure!
bro what paper is q1 from? pls
3. (Original post by BBeyond)
bro what paper is q1 from? pls
January 2014 F1 Paper.

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4. (Original post by Jai Sandhu)
Attachment 396235

You can be the judge of that!

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I approve of all except your and your lambda, the first has far too skinny a body and well your lambda...
5. (Original post by Mutleybm1996)
Err....Maybe...not sure!
n+1 is constant, it doesn't "depend" on r
6. (Original post by Mutleybm1996)
Err....Maybe...not sure!
Alright, the standard forms givin to you for summing series are written in this form.

However, we are summing from r=0, this means that there is an additional 1 which we need to add on resulting in.

Remember, n is not something we are summing it is merely a result from a sum, therefore we can treat it as a constant in the same way that.

is the the same as

In this case we have:

which is the same as

7. (Original post by lizard54142)
I approve of all except your and your lambda, the first has far too skinny a body and well your lambda...
My Z kinda messed up, it should look like the one in the bottom right.
8. (Original post by kingaaran)
January 2014 F1 Paper.

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cheers
9. (Original post by Jai Sandhu)
My Z kinda messed up, it should look like the one in the bottom right.
Ah yes, I missed that one.
10. (Original post by Jai Sandhu)
Alright, the standard forms givin to you for summing series are written in this form.

However, we are summing from r=0, this means that there is an additional 1 which we need to add on resulting in.

Remember, n is not something we are summing it is merely a result from a sum, therefore we can treat it as a constant in the same way that.

is the the same as

In this case we have:

which is the same as

(Original post by lizard54142)
n+1 is constant, it doesn't "depend" on r
Thank you all,
is it possible for you to quickly check through?
I'm pretty sure i understand it now,
just to check though...

So, anything with (Xn+1) in the formula and I'd do (Xn+1) times sum(r=0 to n) of 1.
then add (2n+1)(n+1) to the end of the standard results and follow this through?

Alas, that phrasing is not very mathematical I'm afraid, but does that make sense?
Attached Images

11. (Original post by Mutleybm1996)
Thank you all,
is it possible for you to quickly check through?
I'm pretty sure i understand it now,
just to check though...

So, anything with (Xn+1) in the formula and I'd do (Xn+1) times sum(r=0 to n) of 1.
then add (2n+1)(n+1) to the end of the standard results and follow this through?

Alas, that phrasing is not very mathematical I'm afraid, but does that make sense?
Sounds reasonable. But that is only if it is the sum from r=0 to n. ANY terms which contain an "n" such as n^2, n^3, even e^n (I doubt the last one would ever appear haha) are all constant, which only depend on what the limit of the summation is, not the "summand" (i.e. the r's).
12. (Original post by lizard54142)
Sounds reasonable. But that is only if it is the sum from r=0 to n. ANY terms which contain an "n" such as n^2, n^3, even e^n (I doubt the last one would ever appear haha) are all constant, which only depend on what the limit of the summation is, not the "summand" (i.e. the r's).
Would it be possible to ask for a further example?

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13. (Original post by Mutleybm1996)
Would it be possible to ask for a further example?

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I'll type up a more mathematical example for you tomorrow, for your notes. I'm too tired now I need sleep
14. (Original post by lizard54142)
I'll type up a more mathematical example for you tomorrow, for your notes. I'm too tired now I need sleep
This

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15. (Original post by Jai Sandhu)
This

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I have M2 tomorrow, yet I still stay up stupidly late
16. (Original post by Mutleybm1996)
Would it be possible to ask for a further example?

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Let be a function of

17. (Original post by lizard54142)
I have M2 tomorrow, yet I still stay up stupidly late
I also have M2 (OCR) tomorrow.
18. (Original post by Jai Sandhu)
I also have M2 (OCR) tomorrow.
How confident are you? I am on MEI.
19. (Original post by lizard54142)
How confident are you? I am on MEI.
I am non-MEI, ive done every past paper atleast twice, if I dont get 100 UMS ill be gutted.
20. (Original post by Jai Sandhu)
I am non-MEI, ive done every past paper atleast twice, if I dont get 100 UMS ill be gutted.
Same, aiming for that 100, although M2 is the one module you can make so many silly mistakes on.

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