Simpson's Rule (2 Viewers)

Joined
Dec 31, 2009
Messages
4,741
Location
sarajevo
Gender
Female
HSC
2015
Uni Grad
2017
Simpson's rule approximates a curve into several parabolic sections and then sums up the areas of them. It is given by,

 
Joined
Feb 4, 2011
Messages
145
Gender
Undisclosed
HSC
2009
just google it lol, I did find a good worksheet on it a few weeks a ago

it just works by apporximating the curve by a quadratic function, and then intergrating the quadratic function to get an estimate for the integral.

There is just one formula to remember and you should know that if you use simpsons rule to evaluate a definite integral of a quadratic function then you will get the exact value of the integral from using simpsons rule
 
Joined
Dec 31, 2009
Messages
4,741
Location
sarajevo
Gender
Female
HSC
2015
Uni Grad
2017
Since it approximates using parabolic arcs, Simpson's rule will give the exact result for quadratic functions (and cubics too I think but I'm not sure why).
 

Riproot

Addiction Psychiatrist
Joined
Nov 10, 2009
Messages
8,228
Location
I don’t see how that’s any of your business…
Gender
Male
HSC
2011
Uni Grad
2017
Simpson's rule approximates a curve into several parabolic sections and then sums up the areas of them. It is given by,

Thanks, I should be able to memorise this pretty easily. :p
I'm memorising the proofs for polynomials in MX2 at the moment, so this shouldn't be hard compared to that.
 

cutemouse

Account Closed
Joined
Apr 23, 2007
Messages
2,250
Gender
Undisclosed
HSC
N/A
What about for more than 3 function values?
 
Joined
Feb 4, 2011
Messages
145
Gender
Undisclosed
HSC
2009
What about for more than 3 function values?
i think you just give up and fail at that point

lol why memorise the case with three function values, if asked in an exam they will most likely ask for more than three function values, yes you could split it into 2 ( or more ) different regions and apply the formula ( what they do in general maths ) or you be smart and just always use the general formula
 

ibbi00

Member
Joined
Sep 6, 2009
Messages
771
Gender
Male
HSC
2010
In a nut shell:
h/3 [1st + last + 2(odd) + 4(even)] where h = b-a/n
[y values. don't make the stupid mistake of putting x values here]
 
Joined
Feb 4, 2011
Messages
145
Gender
Undisclosed
HSC
2009
Haha, done that way to many times. If my memory serves me well, you'll always end up with an answer of 0 and be like wtf???!!
nah, but see I can see you have memorised it rather than understanding

what if the question was something like " use simpsons rule with 3 function values to estimate the area enclosed by the lines y=1, y=3 , x=0 and the curve y=e^-x"

hmm now in that case the area has been rotated so now you must use x values to get the correct answer.

see they need to start putting in these tricks to really test people, im sick of these tests where too many people can get 90/120 raw

I want to see people struggle to get 60/120 for a two unit paper, all the questions from 1-7 should be replaced with questions of Q8 difficulty
 
Last edited:

ibbi00

Member
Joined
Sep 6, 2009
Messages
771
Gender
Male
HSC
2010
I'm pretty sure I came across such a question before. Wasn't that bad. But really, there's only so much you can recreate in maths. It will all end up being repetitive.
 
Joined
Dec 31, 2009
Messages
4,741
Location
sarajevo
Gender
Female
HSC
2015
Uni Grad
2017
see they need to start putting in these tricks to really test people, im sick of these tests where too many people can get 90/120 raw
The HSC is meant to test knowledge and how hard someone has been bothered to rote learn everything, it's not meant to test alertness and intelligence.
 

Trebla

Administrator
Administrator
Joined
Feb 16, 2005
Messages
8,393
Gender
Male
HSC
2006
I can post a derivation of Simpson's rule if you like (not the ones in Wikipedia), which uses concepts within the scope of this course.
 
Joined
Dec 31, 2009
Messages
4,741
Location
sarajevo
Gender
Female
HSC
2015
Uni Grad
2017
I can post a derivation of Simpson's rule if you like (not the ones in Wikipedia), which uses concepts within the scope of this course.
I'd like it :p

I haven't been taught this in class yet, I taught myself but unfortunately there's no derivation in my textbook :-(
 

Users Who Are Viewing This Thread (Users: 0, Guests: 2)

Top