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More differentiation, lol! (1 Viewer)

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Hey guys,

Got stuck on another question that has 2 answers - very weird... hope someone can see the flaw in it somewhere

Anyway, the question was to find the stationary points on the curve y = x squared - x cubed.

The two points were found to be (0,) and (2/3, 4/27)

i put:

when x = 4/27 then x 0 2/3 1
y(dash) 0 0 -ve

and when x = 4/27 then x -1 2/3 -1
y(dash) -ve 0 -ve

the answer is that it is a maximum t.p but arent these two different answers?

btw i havent done horizontal points of inflection yet so is that part of the problem as well?


p.s anyone know how to differentiate this quickie: f(x) = 4x divided by 2 sqrt x



Thanks in advance,
lookoutastroboy
 

ninetypercent

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find the stationary points on the curve y = x squared - x cubed.
I think you made a careless error. Using the second derivative:





for stationary points





OR



> 0

(0,0) is a minimum turning point

< 0

(2/3,4/27) is a maximum turning point
 
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Use quotient rule:

f'(x) = vu' - uv' / v^2
f'(x) = 4(2 sqrt x) - 4x(x^-1/2) / (2 sqrt x)^2

You can do the rest.
the answer seems to be 2 divided by sqrt 2x

but i have got the right answer but cannot seem to simplify it to be that answer,
any tips?




thanks for the help both of you,
lookoutastroboy
 

ninetypercent

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f(x) =

f'(x) =













the numerator



the answer seems to be 2 divided by sqrt 2x

I presume you mean 2 divided by 2rootx.

this is also equal to:

the denominator



so your answer is correct.
 
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ninetypercent

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oh sorry. Here's the correct solution:














EDIT: oops didn't realise the OP had found the solution
 
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Dumbledore

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f(x) =

f'(x) =













the numerator



the answer seems to be 2 divided by sqrt 2x

I presume you mean 2 divided by 2rootx.

this is also equal to:

the denominator



so your answer is correct.
uhhh.... isn't 4x/2sqrt(x) just 2sqrt(x) which is easy to differentiate?
 
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lol thanks for everyone's responses - i really appreciated the help and effort

just one more question - when you do maximum/minimum turning point questions,
my teacher said to try in the derivatives for x on either side of a stationary point x. I did this for the question below,

as shown above - ninetypercent - i havent used that method before - bear with me please =)

anyways i did it again using that method - this was purely experimental

anyway its y = x squared - x cubed

when x = 2/3, y = 4/27 (one of the two stationary points on the curve)

1st time:

x 0 2/3 1
y (dash) 0 0 -ve - which has no max/min t.p

and

2nd time:

x 1/3 2/3 1
y (dash) +ve 0 -ve which is indeed a max t.p and the correct answer

well both ways place lower and higher values on either side of the s.p so why does this come out with 2 different answers?? is there something wrong with zero in this case?





can someone explain this?




thanks,
lookoutastroboy
 

ninetypercent

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umm.. you need to pick numbers that are closer (sometimes even very close depending on the graph) to the stationary point. If you pick a number that is far away (such as 1) then the result will not be correct because at x =1, the gradient will be different to what it's like at x =1/3. This is a case that occurs with functions that are not even or odd.

One of the reasons why I prefer to use the second derivative
 

Timothy.Siu

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umm.. you need to pick numbers that are closer (sometimes even very close depending on the graph) to the stationary point. If you pick a number that is far away (such as 1) then the result will not be correct because at x =1, the gradient will be different to what it's like at x =1/3. This is a case that occurs with functions that are not even or odd.

One of the reasons why I prefer to use the second derivative

You don't HAVE to pick a number that is closer. You just can't pick a "wrong" point. e.g. if a curve has 2 stationary points, lets say one at x=2 and one at x=5, to test the stationary point at x=2, you have to pick one value on either side, BUT the value of x>2 side has to be x<5, because that is where another stationary point occurs.

The reason why you had two different answers when you tested your stationary point is because x=0 is ALSO a stationary point.
 

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