If your solution to stated problem does not match the given solution, you should self-critique per instructions at http://vhcc2.vhcc.edu/dsmith/geninfo/labrynth_created_fall_05/levl1_22/levl2_81/file3_259.htm.
Your solution, attempt at solution. If you are unable to attempt a solution, give a phrase-by-phrase interpretation of the problem along with a statement of what you do or do not understand about it. This response should be given, based on the work you did in completing the assignment, before you look at the given solution.
020. `query 20
Question: `q 2b 7th edition 2.7.16 (was 2.7.10) dy/dx at (2,1) if x^2-y^3=3
Your solution:
Confidence Rating:
Given Solution:
`a The derivative of x^2 with respect to x is 2 x.
The derivative of y^3 with respect to x is 3 y^2 dy/dx. You can see this by realizing that since y is implicitly a function of x, y^3 is a composite function: inner function is y(x), outer function f(z) = z^3. So the derivative is y'(x) * 3 * f(y(x)) = dy/dx * 3 * y^2.
So the derivative of the equation is
2 x - 3 y^3 dy/dx = 0, giving
3 y^2 dy/dx = 2 x so
dy/dx = 2 x / ( 3 y^2).
At (2,1), we have x = 2 and y = 1 so
dy/dx = 2 * 2 / (3 * 1^2) = 4/3. **
Self-critique (if necessary):
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Question: `q 3b 7th edition 2.7.28 (was 2.7.22) slope of x^2-y^3=0 at (1,1)
What is the desired slope and how did you get it?
Your solution:
Confidence Rating:
Given Solution:
`a The derivative of the equation is
2 x - 3 y^2 dy/dx = 0. Solving for dy/dx we get
dy/dx = 2x / (3 y^2).
At (-1,1) we have x = 1 and y = 1 so at this point
dy/dx = 2 * -1 / (3 * 1^2) = -2/3. **
Self-critique (if necessary):
Self-critique Rating:
Question: `q 6 7th edition 2.7.42 (was 2.7.36) p=`sqrt( (500-x)/(2x))
Your solution:
Confidence Rating:
Given Solution:
`a You could apply implicit differentiation to the present form, and that would work but it would be fairly messy.
You have lots of choices for valid ways to rewrite the equation but I would recommend squaring both sides and getting rid of denominators. You get
p^2 = (500-x) / (2x) so
2x p^2 = 500-x and
2x p^2 + x - 500 = 0.
You want dx/dp so take the derivative with respect to p:
2x * 2p + 2 dx/dp * p^2 + dx / dp = 0
(2 p^2 + 1) dx/dp = - 4 x p
dx / dp = -4 x p / (2p^2 + 1) **
STUDENT QUESTION:
could you explain that differiant I not sure what happens to
the middle x
INSTRUCTOR RESPONSE
Remember how implicit differentiation works, with on variable
being considered as a function of the other. In this case x is considered to be
a function of p.
One way to see it:
if ' represents derivative with respect to p, then
(2 x p^2) ' = 2 ( x p^2) ' = 2 ( x ' p^2 + x * (p^2)' ) = 2 ( x ' p^2 + x * (2
p) ) = 2 x ' p^2 + 4 x p.
So the equation
2x p^2 + x - 500 = 0 gives us
(2 x p^2) ' + x ' + 0 = 0, or
2 x ' p^2 + 4 x p + x ' = 0.
If we use d/dp notation, this is
2 dx/dp + p^2 + dx/dp = 0.
Remember that the derivative is with respect to p, not x, so x ' is x ' = dx/dp,
not x ' = 1 (as it would be if we were taking a derivative with respect to x).
Another way to notate it:
The equation is 2 x p^2 = 500 - x.
We take the derivative of both sides with respect to p. So the derivative of x
is dx/dp. The derivative of p^2 with respect to p is just 2 p.
The derivative of x p^2 is, by the product rule,
derivative of x p^2 = (derivative of x) * p^2 + x * (derivative of p^2), which
works out to
dx/dp * p^2 + x * (2 p).
Of course, that means that the derivative of 2 x p^2 is 2 ( dx/dp * p^2 + x * (2
p) ) = 2 dx/dp * p^2 + 4 x p.
So the derivative with respect to p of 2 x p^2 + x - 500 is
(2 dx/dp * p^2 + 4 x p) + dx/dp + 0 or just
(2 dx/dp * p^2 + 4 x p) + dx/dp,
and our equation is
2 dx/dp * p^2 + 4 x p + dx/dp = 0.
Self-critique (if necessary):
Self-critique Rating: