First Year Mathematics B (Integration, Series, Discrete Maths & Modelling) (2 Viewers)

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

Could someone help me do this thanks, I'm keen to see the working out so I can get the general idea of things (I'm getting confused with what happens when you get down to the n limit).



 

Flop21

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Re: MATH1231/1241/1251 SOS Thread

Can someone help me understand what's going on here, what's this Ab stuff?

 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

(The "Ab stuff" just refers to multiplying the matrix A by the vector b.)
 

Flop21

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Re: MATH1231/1241/1251 SOS Thread

Can someone please do this integration

int(sin^3[theta] cos^5[theta] d[theta])

I expanded the sin^3 to sin^2 * sin, then made u = cos [theta], getting int( (1-u^2)(u^4)(-du) ). But the answers do it a completely different way, using u = sin, and get a completely different answer.
 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

Can someone please do this integration

int(sin^3[theta] cos^5[theta] d[theta])

I expanded the sin^3 to sin^2 * sin, then made u = cos [theta], getting int( (1-u^2)(u^4)(-du) ). But the answers do it a completely different way, using u = sin, and get a completely different answer.


 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

This was the question I asked about, trying to figure out the matrix first then multiplying. :)
Well you didn't give the full question haha. Here we just needed Ab, not A itself. When you asked, you asked about finding the actual matrix iirc.
 

Drsoccerball

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Re: MATH1231/1241/1251 SOS Thread

I got that exact answer. Thanks!

The book answer is:-1/4sin^4[theta] - 1/3sin^6[theta] + 1/8 sin^8[theta] + C
Wolfram the hell out of integration
 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

I got that exact answer. Thanks!

The book answer is:-1/4sin^4[theta] - 1/3sin^6[theta] + 1/8 sin^8[theta] + C
Replace all sin^2 (theta) there with (1 – cos^2 (theta)) and expand and simplify and it should come down to your one. (But it'll be pretty tedious by hand so if you want to confirm it, better to use a computer to do it).
 

Flop21

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Re: MATH1231/1241/1251 SOS Thread

Replace all sin^2 (theta) there with (1 – cos^2 (theta)) and expand and simplify and it should come down to your one. (But it'll be pretty tedious by hand so if you want to confirm it, better to use a computer to do it).
sweet!

Now I need help with how to do this sort of integration



Here's the answer (why are there now 3 fractions)

 

Flop21

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Re: MATH1231/1241/1251 SOS Thread

For some reason I can't seem to do exact ODEs now when I thought I was doing them fine.................

What on earth am I doing wrong??

The equation given is: 2xy + (x^2 + y^2)dy/dx = 0

At first I went, INT[2xy dx] = x^2 y + h(y)

INT[x^2 + y^2 dy] = x^2 y + y^3/3 + g(x)

by comparison, h(y) = y^3/3

therefore the solution is: x^2 y + y^3/3 = C

-

However the answers say the solution is 3x^2 y + y^3 = A.


I tried doing it the way the lecturers showed to do these...

fx(x,y) = 2xy [1]

fy(x,y) = x^2 + y^2

f(x,y) (integration fx with respect to x) = xy^2 + h(y)

fy(x,y) (derivative with respect to y ^^) = 2xy + h'(y) .... this should euqla fx(x,y) / first equation [1], so h(y) is some constant.

therefore the solution is xy^2 = C.

-

Again that's wrong. What am I doing here??
 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

For some reason I can't seem to do exact ODEs now when I thought I was doing them fine.................

What on earth am I doing wrong??

The equation given is: 2xy + (x^2 + y^2)dy/dx = 0

At first I went, INT[2xy dx] = x^2 y + h(y)

INT[x^2 + y^2 dy] = x^2 y + y^3/3 + g(x)

by comparison, h(y) = y^3/3

therefore the solution is: x^2 y + y^3/3 = C

-

However the answers say the solution is 3x^2 y + y^3 = A.


I tried doing it the way the lecturers showed to do these...

fx(x,y) = 2xy [1]

fy(x,y) = x^2 + y^2

f(x,y) (integration fx with respect to x) = xy^2 + h(y)

fy(x,y) (derivative with respect to y ^^) = 2xy + h'(y) .... this should euqla fx(x,y) / first equation [1], so h(y) is some constant.

therefore the solution is xy^2 = C.

-

Again that's wrong. What am I doing here??
Your answer of "x^2 y + y^3/3 = C" is the same as the given answer (just multiply yours through by 3 and you get theirs, noting that 3C can just be written as an arbitrary constant itself, like A).
 

InteGrand

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Re: MATH1231/1241/1251 SOS Thread

For some reason I can't seem to do exact ODEs now when I thought I was doing them fine.................

What on earth am I doing wrong??

The equation given is: 2xy + (x^2 + y^2)dy/dx = 0

At first I went, INT[2xy dx] = x^2 y + h(y)

INT[x^2 + y^2 dy] = x^2 y + y^3/3 + g(x)

by comparison, h(y) = y^3/3

therefore the solution is: x^2 y + y^3/3 = C

-

However the answers say the solution is 3x^2 y + y^3 = A.


I tried doing it the way the lecturers showed to do these...

fx(x,y) = 2xy [1]

fy(x,y) = x^2 + y^2

f(x,y) (integration fx with respect to x) = xy^2 + h(y)

fy(x,y) (derivative with respect to y ^^) = 2xy + h'(y) .... this should euqla fx(x,y) / first equation [1], so h(y) is some constant.

therefore the solution is xy^2 = C.

-

Again that's wrong. What am I doing here??
 
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