How do you differentiate y^2=4ax ? (1 Viewer)

enigma_1 · Dec 23, 2013

Thanks

Btw do you need implicit differentiation? Because I haven't learnt that.
Another method is appreciated.

Drongoski · Dec 23, 2013

Use implicit differentiation.

$\frac {d}{dx} y^2 = \frac {d}{dx} 4ax \implies 2y\frac {dy}{dx} = 4a \implies \frac {dy}{dx} = \frac {2a}{y}$

Carrotsticks · Dec 23, 2013

Hyper_bole said:
Thanks

Btw do you need implicit differentiation? Because I haven't learnt that.
Another method is appreciated.

You can realise that the parametric expression for it is $P \left ( at^2,2at \right )$ and then use $\frac{dy}{dx} = \frac{\frac{dy}{dt}}{\frac{dx}{dt}}$

asianese · Dec 23, 2013

Alternatively

$y^2 = 4ax \Rightarrow y = \sqrt{4a} \sqrt{x} (y $ positive) so $ \dfrac{dy}{dx} = \sqrt{4a}\cdot \dfrac{1}{2\sqrt{x}}\\ $But remember that $ \sqrt{x} = \dfrac{y}{\sqrt{4a}} \Rightarrow \dfrac{dy}{dx} = \sqrt{4a}\cdot \dfrac{1}{2\frac{y}{\sqrt{4a}}} \\ = \dfrac{2a}{y}.$

anomalousdecay · Dec 23, 2013

If you are only doing 3-unit, you don't need implicit differentiation.

Btw, I'm not sure if you are allowed to use it in the HSC exams unless its the ext.2 paper. Not sure on this though. Can someone clarify?

asianese · Dec 23, 2013

anomalousdecay said:
If you are only doing 3-unit, you don't need implicit differentiation.

Btw, I'm not sure if you are allowed to use it in the HSC exams unless its the ext.2 paper. Not sure on this though. Can someone clarify?

You can use any valid HSC method in any paper - the thing is - you will never need to. E.g. integration by parts of y = lnx when you can use the inverse function (x = lny and integrate wrt y)

braintic · Dec 23, 2013

anomalousdecay said:
If you are only doing 3-unit, you don't need implicit differentiation.

Btw, I'm not sure if you are allowed to use it in the HSC exams unless its the ext.2 paper. Not sure on this though. Can someone clarify?

Implicit differentiation is an extremely useful tool in Extension 1. It mightn't be required, but I believe any Ext 1 teacher who doesn't teach it is depriving their students.

I'm thinking specifically of the related rates questions where (for example) a ladder is sliding down a wall, in fact anything that would otherwise require Pythagoras.

asianese · Dec 23, 2013

Sometimes when you end up with an expression in the form

$D^2(x) = f(x)$ one should remember that one need not implicitly differentiate or take a square root when attempting to find stationary points of D(x). This is because $D(x) = \sqrt{f(x)} \Rightarrow \dfrac{dD}{dx} = \dfrac{f'(x)}{2\sqrt{f(x)}}$ and when this is set to zero we get $f'(x)=0$ which can be obtained from $\dfrac{dD^2(x)}{dx} = f'(x)$

(related but not completely - but I think Braintic you were hinting at this?)

rumbleroar · Dec 23, 2013

Another way of doing it is splitting it off into two cases by square rooting y^2. Although this method is lengthier, it doesn't require implicit

asianese · Dec 23, 2013

rumbleroar said:
Another way of doing it is splitting it off into two cases by square rooting y^2. Although this method is lengthier, it doesn't require implicit

I mentioned that above.

HeroicPandas · Dec 23, 2013

How about:

$y^2 = 4ax \\ x = \frac{y^2}{4a} \\\frac{dx}{dy} = \frac{y}{2a} \\ \frac{dy}{dx} = \frac{2a}{y}$

asianese · Dec 23, 2013

You can do that but perhaps need some inverse function motivation...

rumbleroar · Dec 23, 2013

asianese said:
I mentioned that above.

Ah sorry, didn't see it but great minds think alike

enigma_1 · Dec 23, 2013

Thanks everyone! Does anyone know if we're allowed to use implicit differentiation in an extension one paper?

Drongoski · Dec 23, 2013

Hyper_bole said:
Does anyone know if we're allowed to use implicit differentiation in an extension one paper?

Don't see why not.

rumbleroar · Dec 23, 2013

Hyper_bole said:
Thanks everyone! Does anyone know if we're allowed to use implicit differentiation in an extension one paper?

My tutor said you are allowed to use Ext 2 methods in Ext 1 (in this case, implicit differentiation), but it is generally frowned upon and if you get the method wrong, you get the entire question wrong because you aren't specifically using methods taught in ext 1. So just be careful with using ext 2 methods and skills in ext 1

studybuddy101 · Dec 23, 2013

Yeah +1 to above post. That's what my teacher would tell me. Besides, the paper generally steers you into a certain method anyways so there isn't a considerable disadvantage not knowing implicit for ext1

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