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HSC 2017 MX2 Integration Marathon (archive) (4 Viewers)

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InteGrand

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Re: HSC 2017 MX2 Integration Marathon

Do you mean examples?

What I meant was like I = Int(sec^6) dx or I = Int(tan^8) dx

A trig function to the power of a high even number, which using half angle would be tedious and time-costly.
You can also try reduction formulas.
 

Paradoxica

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Re: HSC 2017 MX2 Integration Marathon

Do you mean examples?

What I meant was like I = Int(sec^6) dx or I = Int(tan^8) dx

A trig function to the power of a high even number, which using half angle would be tedious and time-costly.
For secants and tangents, you simply substitute t=tanx



For tangents, it's easier to divide into two cases:

case 1: exponent is 4n+2

case 2: exponent is 4n

that way, the long division will be very straight forward

cosecants and cotangents are dealt with identically.

sines and cosines are much tricker to deal with, which is why reduction exists.
 

si2136

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Re: HSC 2017 MX2 Integration Marathon

For Sine and Cosine, are there any simpler ways without reduction?
 

Paradoxica

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Re: HSC 2017 MX2 Integration Marathon

For Sine and Cosine, are there any simpler ways without reduction?
It depends on your definition of simple.

You could use the polar form of a complex number combined with the binomial theorem to obtain the power of the sine/cosine in multiple angle form, free of exponents.

Then there's the option of substitution. The details of that particular method is left as an exercise to the reader. (hint: differentiation under the integral sign)
 

InteGrand

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Re: HSC 2017 MX2 Integration Marathon

I dont understand the last line. Why isn't it ln?
Since the denominator has a cos-squared, the numerator isn't going to be like the derivative of the denominator (it would've been though if the denominator just had cos without the square).

Instead, we have a function that is (proportional to) u'/(1 + u2), where u = cos(2x), and u' is proportional to sin(2x), so this is of the form of an inverse-tan answer.
 

BenHowe

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Re: HSC 2017 MX2 Integration Marathon

Is this just like something that is known? I've never heard of anything like this lol...
 

InteGrand

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Re: HSC 2017 MX2 Integration Marathon

Is this just like something that is known? I've never heard of anything like this lol...
It's just reverse chain rule (use a substitution u = cos(2x) if in doubt).
 
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