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Need help, URGENT maths question: (5 Viewers)

InteGrand

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With the p-test btw, just in terms of the actual boundaries

When we were taught it, he demonstrated it with

Does it have to be 1, or can it be any value of a provided the function remains continuous?
Yeah, can be any real number a > 0. This is a pretty classic fact about improper integrals in general (not just p-test), and is analogous with a result from infinite series (essentially you can start the series anywhere and it doesn't affect the convergence status; only the "long-run behaviour" determines this).

So if you wanted, you could restate the p-test as:



 
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Paradoxica

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With the p-test btw, just in terms of the actual boundaries

When we were taught it, he demonstrated it with

Does it have to be 1, or can it be any value of a provided the function remains continuous?
Technically, integrating across/onto a singularity can also create non-convergence.

But yes, as long as the interval [a,∞) is continuous, it is the same thing.
 

1008

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Thanks everyone for your replies!

I have this other question. For the first part, I get V'(x) = u(x)(a-x). If this is right, how would you do the second part?
 

1008

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(So your first answer is right.)



Thanks



For the above question, I've done the first part (using IBP on the RHS to obtain the LHS). But how would you do the MVT part?

Plus how would you do this?:
 
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InteGrand

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Thanks



For the above question, I've done the first part (using IBP on the RHS to obtain the LHS). But how would you do the MVT part?

Plus how would you do this?:
For the Gamma function one:







In fact it converges for real s if and only if s > 0, due to the 'iff' nature of the p-test.
 
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1008

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Thanks. There is another question similar to the MVT one above. I'll try to do attempt that one as well as I didn't get it before.

How would you do this one?



Meanwhile for this question, I get parts (a) and (b), but could someone please verify if I am correct. Also, I don't get part (c) and (d).












 
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leehuan

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For that first question

Substitute x0=m1 without hesitation

Then just put absolute value brackets around it. Replace |f"(c)| with K and swap out the equal sign for an inequality.

To prove the harder part, show that the integral of f(m1) is just equal to h.f(m1) which is trivially true
And then prove that the integral of f'(m1)(x-m1) equals to 0

i.e. prove MHS = LHS

To prove MHS \le RHS use the fact that |\int f| \le \int |f|
 

1008

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For that first question

Substitute x0=m1 without hesitation

Then just put absolute value brackets around it. Replace |f"(c)| with K and swap out the equal sign for an inequality.


To prove the harder part, show that the integral of f(m1) is just equal to h.f(m1) which is trivially true
And then prove that the integral of f'(m1)(x-m1) equals to 0

i.e. prove MHS = LHS

To prove MHS \le RHS use the fact that |\int f| \le \int |f|
Thanks. But I don't get the logic behind this...

And why does the integral of f'(m1)(x-m1) =0?
 

InteGrand

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Thanks. But I don't get the logic behind this...

And why does the integral of f'(m1)(x-m1) =0?
Remember that m1 is the midpoint of the interval. If we integrate a linear function over an interval and the function takes value 0 at the midpoint, the area above and below the curve on either side is equal, so the integral is 0.

(Alternatively, just integrate it normally and remember m1 is the midpoint of the interval, so (x1 - m1)2 = (x0 - m1)2.)

And also, the f"(c) is bounded above in magnitude by K, i.e. |f"(c)| ≤ K. This allows us to get the inequality.
 

1008

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Remember that m1 is the midpoint of the interval. If we integrate a linear function over an interval and the function takes value 0 at the midpoint, the area above and below the curve on either side is equal, so the integral is 0.

(Alternatively, just integrate it normally and remember m1 is the midpoint of the interval, so (x1 - m1)2 = (x0 - m1)2.)

And also, the f"(c) is bounded above in magnitude by K, i.e. |f"(c)| ≤ K. This allows us to get the inequality.
Thanks, and what about the RHS of the inequality, K/24 h^3?
 

InteGrand

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Thanks. There is another question similar to the MVT one above. I'll try to do attempt that one as well as I didn't get it before.

How would you do this one?



Meanwhile for this question, I get parts (a) and (b), but could someone please verify if I am correct. Also, I don't get part (c) and (d).
Thanks, and what about the RHS of the inequality, K/24 h^3?
Remember h is the interval width. Have you tried using the triangle inequality as leehuan suggested? If so, what have you managed to get up to using that?
 

1008

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Thanks. There is another question similar to the MVT one above. I'll try to do attempt that one as well as I didn't get it before.

How would you do this one?

Got it




For this question, I use the fact that as the curve of u(x) is always less than or equal to the curve of the RHS inequality, the area under the curve of u(x) would also be lesser than that of the RHS of the inequality (from x_0 to x_1 of course). Then I used leehuan's suggestion that |\int f| \le \int |f|, thus solving the inequality. Is this right? Oh yeah, BTW, forgot to change it, please ignore the absolute value signs around by substitution for u(x)

Also, any thoughts on the other question I put up?
 
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1008

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In continuation to my previous post, for this question:


I got the first two parts. However, when I did (c), this is what I get:



This has got all the terms that have been asked in (c), so I know I've expanded correctly, but, for some reason, there are two extra terms in the answer to (c) (refer question). Could someone please help?
 
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1008

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When going from my second to the third line, I just substituted in the stuff from part (a) wherever I could, like dr/dx = cos (theta) etc. (excuse my d/dx's in this reply, they're meant to be partial)
 
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1008

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IG any thoughts on these q's?

Meanwhile for this question, I get parts (a) and (b), but could someone please verify if I am correct. Also, I don't get part (c) and (d).













In continuation to my previous post, for this question:


I got the first two parts. However, when I did (c), this is what I get:



This has got all the terms that have been asked in (c), so I know I've expanded correctly, but, for some reason, there are two extra terms in the answer to (c) (refer question). Could someone please help?
 

InteGrand

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When going from my second to the third line, I just substituted in the stuff from part (a) wherever I could, like dr/dx = cos (theta) etc. (excuse my d/dx's in this reply, they're meant to be partial)
I think you forgot to use product rules or quotient rules etc. where needed. Like for the (∂/∂r)[∂ƒ/∂θ* (sin(θ)/r)] term in that second line, you should use product rule because the second function here (sin(θ)/r) is dependent on r (the sin(θ) part is a constant wrt r, but the r isn't of course, so we do need to use product rule).
 

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