I am stuck with an easy problem - I must be missing something. I am trying to use the limit process to find the derivative of f(x) = 8 / sqrt of x. Can you help me see where I am messing up?

Question

I am stuck with an easy problem - I must be missing something.  I am trying to use the limit process to find the derivative of f(x) = 8 / sqrt of x.  Can you help me see where I am messing up?

anonymous · Answer

$$f(x) = 8/\sqrt{x}$$

find the derivative using the limit process

anonymous · Answer

f'(x) = lim $$f^\prime(x) =\lim_{\Delta x \rightarrow 0} [(8/\sqrt{x+c}- 8/\sqrt{x})/c]$$

anonymous · Answer

I am banging my head against this problem and getting a bad answer every time.  We can tell by looking at it that the answer is$$-(4/x^(3/2))$$

anonymous · Answer

Well, I think you see what I mean...

anonymous · Answer

But I haven't figured out the algebra to leave me with a 4 in the numerator.  I keep getting stuck with things that don't work out in the end.

anonymous · Answer

Weeku, what do you have for me so far?

anonymous · Answer

Whoops, I made a mistake. Darn editor. . . Hold on.

anonymous · Answer

thanks

anonymous · Answer

Seems no matter what I try, I end up with delta x /[( sqrt x + delta x) + sqrt x]

anonymous · Answer

I am going in circles.

anonymous · Answer

are you still there?

anonymous · Answer

Yeah. I'm stuck as well. Hrm. . . I'm still trying, though. Sorry xD Interesting problem, though.

anonymous · Answer

Ah. Got it. Took a whole loose-leaf paper to work out. . . Pretty nasty.

anonymous · Answer

Did you get up to 

$$(8\sqrt{x} - 8\sqrt{x+h}) / (h \sqrt{x}\sqrt{x+h})$$?

Or, do you know how I got there? At that point, multiple the numerator and denominator by the conjugate of the numerator.

anonymous · Answer

multiply*

anonymous · Answer

Then it becomes a lot of distributing and factoring, until you can finally divide out the h. Once that happens, substitute 0 for h. Phew. I dunno if I can type out everything I did. . . I probably did it the long way, but I saw no other, shorter way. Do you want me to type it out?

anonymous · Answer

Yes, I got that far.
I see you have h = delta x and you canceled out one h already.

anonymous · Answer

I would be grateful if you typed it out.

anonymous · Answer

Before that, all I did was find the common denominator of 8/sqrt[x+h] and 8/sqrt[x], add them together, and instead of dividing by h, multiply by 1/h to get

$$8\sqrt{x} - 8\sqrt{x+h} / h \sqrt{x} \sqrt{x+h}$$

Then I factored out the 8 to get the above ^

Oh. Okay.

anonymous · Answer

Whoops. Never mind about factoring out the 8.

anonymous · Answer

I tried doing that, with no luck. :D

anonymous · Answer

$$\frac{\frac{8}{\sqrt{x+h}} - \frac{8}{\sqrt{x}}}{h}$$Firs Only the Numerator....
$$8\frac{\sqrt{x} - \sqrt{x+h}}{\sqrt{x+h}\times \sqrt{x}}$$ Rationalization of Numerator 
$$\frac{-8}{\sqrt{x+h}\times\sqrt{x}\times(\sqrt{x} + \sqrt{x+h})}$$
$$\frac{-8}{2\times x^{\frac{3}{2}}}$$

anonymous · Answer

Ishaan94, I am looking over what you have done to see where I diverged.  Thank you.

anonymous · Answer

I lost you after "Rationalization of Numerator," but nicely done. I did it the very, very long way, I see. . . Sorry about that, FreeTrader.

anonymous · Answer

$$\Huge{\frac{\frac{-8\cancel{h}}{\sqrt{x+h}\times\sqrt{x}\times(\sqrt{x} + \sqrt{x+h})}}{\cancel{h}}}$$

anonymous · Answer

$$8\frac{\sqrt{x} - \sqrt{x+h}}{\sqrt{x} \times \sqrt{x+h}} \times \frac{\sqrt{x} + \sqrt{x+h}}{\sqrt{x} + \sqrt{x+h}}$$

anonymous · Answer

I see how Ishaan94 got to the "first only the numerator..." expression. 

But I am lost on how he got rid of the terms in the numerator.

anonymous · Answer

Right, multiply by conjugate.

chaise · Answer

I really think you are going about this the wrong way. You should change the square root into a power (1/2) and then bring the denominator to the top by changing the power to negative. Then you can simply use the limit process of:

f(x)= 8x^(-1/2)
f(x+h)=8(x+h)^(1/2)

And plug this into the derivative formula.
You should get rid of the terms in the denominator.

chaise · Answer

Then factor out a h and cancel.

anonymous · Answer

$$8\frac{x - (x+h)}{\sqrt{x}\times \sqrt{x+h} \times (\sqrt{x} + \sqrt{x+h})}$$

anonymous · Answer

I think it's dawning on me that I missed distributing the -1 on the h, too.

anonymous · Answer

Stick with me, I am going to check that on my paper.

anonymous · Answer

Ishaan94, when I perform the operation 8 *[ x -(x+h) ] 
I am left with 8x -8(x+h)

which gives 8x -8x -8h

anonymous · Answer

Right

anonymous · Answer

Which gives -8h. divide out the h's.

anonymous · Answer

I am onto this now... working the algebra.  searching for the lightswitch for the bulb over my head...

chaise · Answer

$$f(x)=\frac{8}{\sqrt{x}}$$
$$f(x)=\frac{8}{x ^{1/2}}$$
$$f(x)=8x ^{\frac{-1}{2}}$$
$$f(x+h)=8(x+h)^{-1/2}$$
$$f \prime(x)\lim_{h \rightarrow 0}=I can't remember the formula$$

Now just use you derivative formula, cancel where necisary, factor out a h, then cancel with the denominator.

anonymous · Answer

Lol@chaise xD

anonymous · Answer

Lol

anonymous · Answer

My problem is now in the denominator of the numerator.
I don't see a h to cancel the one against the -8.

anonymous · Answer

You're forgetting that the entire equation is over h at this point. 

$$\Huge{\frac{\frac{-8\cancel{h}}{\sqrt{x+h}\times\sqrt{x}\times(\sqrt{x} + \sqrt{x+h})}}{\cancel{h}}}$$

anonymous · Answer

I have that now.  Thanks.  I am down to working with the remaining denom terms.

chaise · Answer

All terms on the right hand side of the minus sign in your derivative formula that have a x term should cancel with the terms. I think you're going about this the wrong way. Instead of having a quotient you should really bring the denominator to the top by making the power negative. Remember this rule?

am^-x = a/m^x

anonymous · Answer

Yes.  I am already so deep in the prob that I am going to finish it with frax.

anonymous · Answer

Here's what I have in the denominator, which I am tempted to misspell as demon-ator.  

$$\sqrt{x} * \sqrt{x} * \sqrt{x+h} + \sqrt{x} * \sqrt{x+h} * \sqrt{x+h} $$

anonymous · Answer

Since the h values go to zero in the limit, the following is the denominator in the limit:

$$2\sqrt{x}\sqrt{x}\sqrt{x}$$

chaise · Answer

$$f(x)=\frac{8}{\sqrt{x}}$$
$$f(x)=\frac{8}{x ^{1/2}}$$
$$f(x)=8x ^{\frac{-1}{2}}$$
$$f(x+h)=8(x+h)^{-1/2}$$
$$\lim_{h \rightarrow 0}f'(x)=\frac{f(x+h)-f(x)}{h}$$
lim{h-->0) of f'(x) = (8(x+h)^(-1/2) - 8x^(-1/2))/h

You can do the rest, I'm sure.

anonymous · Answer

Yes, freetrader, (sqrt[x])^3 = x^(3/2)

anonymous · Answer

Okay, I am losing my sanity.  Can you help me remember if $$\sqrt{x^3} = \sqrt{x}\sqrt{x}\sqrt{x}$$  ???

chaise · Answer

Yes - and this should be in the denominator of the equation once it has been solved. Notice how the ^(-1/2) becomes 1.5 when you increase the power by one.

And yes it does FreeTrader

anonymous · Answer

Yup. That is a true statement.

chaise · Answer

Stop writing it as a square root until you get to the final stage of the question.
sqrt(x)^3 = x^(3/2)

anonymous · Answer

I have temp insanity.

anonymous · Answer

'Tis okay.:)

anonymous · Answer

So, my answer took me 7 hours to reach.

anonymous · Answer

It was totally worth it!

anonymous · Answer

THANK YOU FRIENDS!

anonymous · Answer

:)