maths 1B last minute questions (1 Viewer)

leehuan

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Reason is due to which part of the graph you miss out on by using the continuous approximation. If X* is the continuous approximtion r.v. to X, then clearly, to approximate P(X > a), we need to use the continuity correction P(X* > a 0.5), whereas for P(X < a), it'd be P(X* < a + 0.5). Don't need to guess.
Oh no I didn't mean that, choosing when to +0.5 as opposed to -0.5 is all good

Some of the questions he showed me just did +0 and that's what agitate me
 

InteGrand

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Oh no I didn't mean that, choosing when to +0.5 as opposed to -0.5 is all good

Some of the questions he showed me just did +0 and that's what agitate me
Ah right. Were they for extremely large values, as Drsoccerball mentioned? In these cases, the continuity correction would make little difference.
 

leehuan

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Ah right. Were they for extremely large values, as Drsoccerball mentioned? In these cases, the continuity correction would make little difference.
I had a look at both photos.

In both cases n = 100

(i.e. they did -0.5 in one of them and -0 in the other)
 

Drsoccerball

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Yes that was my question so what value is considered "very large" that I don't have to at epsilon anymore? What If I say n =2 is very large and thus don't have to add an epsilon?
 
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leehuan

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But didn't we say the Im(T) = 2 and the nullity = 1 ?
The dimension of the vector space you map from (P2) is 3.

So if rank(T) = 2 and nullity(T) = 1
2+1 = 3. Satisfying the rank-nullity theorem.
 

Drsoccerball

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But arn't we putting in a vector from P_2 and getting out a vector from P_3 ? If we have a 4x3 matrix then that says we are putting in a vector from P_3?
 

InteGrand

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But arn't we putting in a vector from P_2 and getting out a vector from P_3 ? If we have a 4x3 matrix then that says we are putting in a vector from P_3?
No, remember P_n has dimension n+1. So P_2 (domain) has dimension 3. So the matrix will have three columns.

In general, if the linear map T has a domain with dimension d and codomain with dimension c (c,d finite) then a matrix for T will have dimensions c-by-d.
 

Drsoccerball

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So do I T(<1,0,0,0>) , T(<0,1,0,0>), T(<0,0,1,0>) as the columns ?
 

Drsoccerball

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How do you expect to multiply a 4x3 matrix with a 4x1 vector

You need to multiply a 4x3 matrix with a 3x1 vector
Im just thinking the last row is going to be all zeros...

So confused right now
 
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Drsoccerball

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Thanks Integrand for saving my maths 1B :') and thanks everyone else who helped the exams tomorrow I hope I can get good for all the effort you guys put in for me :) I may have a few more questions and then thats it. (May also make a discrete maths forum but I went to most of my lectures so there won't be as many questions).
 

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