MATH1251 Questions HELP (1 Viewer)

InteGrand

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Thanks for the solution and the Wikipedia link! Any thoughts on the other question (ii)?
The method would be similar. Use the given substitution and you should end up with a linear ODE, which you can solve via an integrating factor for example. Make sure to find the value of the constant C by using the initial condition. Once you have found the solution, you should be able to find its maximum value.

(Note that maximising y will be equivalent to minimising z, and the latter will be easier to do, and ymax. = 1/zmin..)
 
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1008

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The method would be similar. Use the given substitution and you should end up with a linear ODE, which you can solve via an integrating factor for example. Make sure to find the value of the constant C by using the initial condition. Once you have found the solution, you should be able to find its maximum value.

(Note that maximising y will be equivalent to minimising z, and the latter will be easier to do, and ymax. = 1/zmin..)
Thanks, figured out the ODE bit, couldn't find how to do the max. value...

Got another question as well:


I found a VERY simple solution, I don't think it's right, and it certainly doesn't match with these answers provided:



My solution was just:
 

InteGrand

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Thanks, figured out the ODE bit, couldn't find how to do the max. value...

Got another question as well:


I found a VERY simple solution, I don't think it's right, and it certainly doesn't match with these answers provided:



My solution was just:
How did you get your solution? Note we can't just integrate the RHS of the given ODE as though we're just integrating a square, because there's an unknown function y(x) in there.
 

1008

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How did you get your solution? Note we can't just integrate the RHS of the given ODE as though we're just integrating a square, because there's an unknown function y(x) in there.
Yeah just realised I did essentially that, I used the substitution provided, rearranged it and somehow forced it into the ODE provided (and I know I wasn't supposed to do this)...But since there are two variables in the substitution u=y-x, do we need to use partial differentiation?
 
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InteGrand

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Thanks, figured out the ODE bit, couldn't find how to do the max. value...

Got another question as well:


I found a VERY simple solution, I don't think it's right, and it certainly doesn't match with these answers provided:



My solution was just:








 
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InteGrand

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Yeah just realised I did essentially that, I used the substitution provided, rearranged it and somehow forced it into the ODE provided (and I know I wasn't supposed to do this)...But since there are two variables in the substitution u=y-x, do we need to use partial differentiation?
 

leehuan

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I didn't have any problem tackling algebra with this question, but I have something else. (Just going to insert an image here as the question is a bit awkward to type up neatly.)



The answer to (ii) is



For (iii) and (v), it is quite obvious that y tends to K but I've forgotten how fractions work. Why is it that in (iii) it does so strictly increasing whereas in (iv) it is strictly increasing towards K?

(Cause I'm obviously assuming that there is obviously no need to compute dy/dt=g(t) here)
 
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InteGrand

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I didn't have any problem tackling algebra with this question, but I have something else. (Just going to insert an image here as the question is a bit awkward to type up neatly.)



The answer to (ii) is



For (iii) and (v), it is quite obvious that y tends to K but I've forgotten how fractions work. Why is it that in (iii) it does so strictly increasing whereas in (iv) it is strictly increasing towards K?

(Cause I'm obviously assuming that there is obviously no need to compute dy/dt=g(t) here)


 

1008

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I didn't have any problem tackling algebra with this question, but I have something else. (Just going to insert an image here as the question is a bit awkward to type up neatly.)



The answer to (ii) is



For (iii) and (v), it is quite obvious that y tends to K but I've forgotten how fractions work. Why is it that in (iii) it does so strictly increasing whereas in (iv) it is strictly increasing towards K?

(Cause I'm obviously assuming that there is obviously no need to compute dy/dt=g(t) here)
Wait doesn't y approach -K (not K) as t-> infinity, knowing 0<y_0<K
 
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InteGrand

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Wait doesn't y approach -K (not K) as t-> infinity, knowing 0<y_0<K
It approaches K. leehuan typoed the solution, it should be +y0 in the denominator. (To see this, note that if we sub. in t = 0, we are supposed to get y = y0.)
 

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