Difference between revisions of "022 Sample Final A"
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<div class="noautonum">__TOC__</div> | <div class="noautonum">__TOC__</div> | ||
| − | == [[ | + | == [[022_Sample Final A,_Problem_1|<span class="biglink"><span style="font-size:80%"> Problem 1 </span></span>]] == |
| − | <span class="exam">Find all first and second partial derivatives of the following function, and demostrate that the mixed second partials are equal | + | <span class="exam">Find all first and second partial derivatives of the following function, and demostrate that the mixed second partials are equal for the function <math> f(x, y) = \frac{2xy}{x-y}.</math> |
| − | == [[ | + | == [[022_Sample Final A,_Problem_2|<span class="biglink"><span style="font-size:80%"> Problem 2 </span>]] == |
| − | <span class="exam"> A dairy farmer plans to enclose a rectangular pasture adjacent to a river. To provide enough grass for | + | <span class="exam"> A dairy farmer plans to enclose a rectangular pasture adjacent to a river. To provide enough grass for his cows, the fenced pasture must contain 200 square meters of grass. If no fencing is required along the river, what dimensions will use the smallest amount of fencing? |
| − | == [[ | + | == [[022_Sample Final A,_Problem_3|<span class="biglink"><span style="font-size:80%"> Problem 3 </span>]] == |
| − | <span class="exam"> Find the antiderivative: <math>\int \frac{6}{x^2 - x - 12}</math> | + | <span class="exam"> Find the antiderivative: <math>\int \frac{6}{x^2 - x - 12}\,dx.</math> |
| − | == [[ | + | == [[022_Sample Final A,_Problem_4|<span class="biglink"><span style="font-size:80%"> Problem 4 </span>]] == |
| − | <span class="exam"> Use implicit differentiation to find <math>\frac{dy}{dx}: \ | + | <span class="exam"> Use implicit differentiation to find  <math>\frac{dy}{dx}: \quad x+y = x^3y^3</math>. |
| − | == [[ | + | == [[022_Sample Final A,_Problem_5|<span class="biglink"><span style="font-size:80%"> Problem 5 </span>]] == |
| − | <span class="exam"> Find producer and consumer surpluses | + | <span class="exam"> Find producer and consumer surpluses if the supply curve is given by <math style="vertical-align: -4px"> p = 18 + 3x^2</math>, and the demand curve is given by <math style="vertical-align: -4px">p = 150 - 4x</math>. |
| − | < | + | == [[022_Sample_Final_A,_Problem_6|<span class="biglink"><span style="font-size:80%"> Problem 6 </span>]] == |
| + | <span class="exam"> Sketch the curve, including all relative exterma and points of inflection: <math style="vertical-align: -4px">y = 3x^4 - 4x^3</math>. | ||
| − | == [[ | + | == [[022_Sample_Final_A,_Problem_7|<span class="biglink"><span style="font-size:80%"> Problem 7 </span>]] == |
| − | <span class="exam"> | + | <span class="exam">Find the present value of the income stream <math style="vertical-align: -2px">Y = 20 + 30x</math> from now until 5 years from now, given an interest rate <math style="vertical-align: -1px">r = 10%.</math> |
| + | <br> | ||
| + | ''(Note: Once you plug in the limits of integration, you are finished; you do not need to simplify our answer beyond that step.)'' | ||
| − | == [[ | + | == [[022_Sample_Final_A,_Problem_8|<span class="biglink"><span style="font-size:80%"> Problem 8 </span>]] == |
| − | <span class="exam">Find | + | <span class="exam"> |
| + | Find ther marginial productivity of labor and marginal productivity of capital for the following Cobb-Douglas production function: | ||
| + | |||
| + | ::<math>f(k, l) = 200k^{\,0.6}l^{\,0.4}.</math> | ||
| + | |||
| + | <span class="exam">''(Note: You must simplify so your solution does not contain negative exponents.)'' | ||
| − | == [[ | + | == [[022_Sample_Final_A,_Problem_9|<span class="biglink"><span style="font-size:80%"> Problem 9 </span>]] == |
| − | <span class="exam"> | + | <span class="exam"> Given demand <math style="vertical-align: -3.25px">p = 116 - 3x</math>, and cost  <math style="vertical-align: -2.1px">C = x^2 + 20x + 64</math>, find: |
| − | + | ||
| + | ::<span class="exam">a) Marginal revenue when ''x'' = 7 units. | ||
| + | ::<span class="exam">b) The quantity (''x''-value) that produces minimum average cost. | ||
| + | ::<span class="exam">c) Maximum profit (find both the ''x''-value <u>'''and'''</u> the profit itself). | ||
| + | |||
| + | == [[022_Sample_Final_A,_Problem_10|<span class="biglink"><span style="font-size:80%"> Problem 10 </span>]] == | ||
| + | <span class="exam">Set up the formula to find the amount of money one would have at the end of 8 years if she invests $2100 in an account paying 6% annual interest, compounded quarterly. | ||
| + | |||
| + | == [[022_Sample_Final_A,_Problem_11|<span class="biglink"><span style="font-size:80%"> Problem 11 </span>]] == | ||
| + | <span class="exam">Find the derivative: <math style="vertical-align: -18px">g(x) = \frac{ln(x^3 + 7)}{(x^4 + 2x^2)}</math> . | ||
| − | < | + | <span class="exam">''(Note: You do not need to simplify the derivative after finding it.)'' |
| − | == [[ | + | == [[022_Sample_Final_A,_Problem_12|<span class="biglink"><span style="font-size:80%"> Problem 12 </span>]] == |
| − | <span class="exam"> | + | <span class="exam"> Find the antiderivative: <math>\int x^2e^{3x^3}dx.</math> |
| − | <span class=" | + | == [[022_Sample_Final_A,_Problem_13|<span class="biglink"><span style="font-size:80%"> Problem 13 </span>]] == |
| − | <span class="exam">: | + | <span class="exam">Use differentials to find <math style="vertical-align: -4px">dy</math> given <math style="vertical-align: -4px">y = x^2 - 6x, ~ x = 4, ~dx = -0.5.</math> |
| − | < | ||
| − | == [[ | + | == [[022_Sample_Final_A,_Problem_14|<span class="biglink"><span style="font-size:80%"> Problem 14 </span>]] == |
| − | <span class="exam"> | + | <span class="exam"> Find the following limit: <math style="vertical-align: -15px">\qquad \lim_{x \rightarrow \,-3}\frac{x^2 + 7x + 12}{x^2 - 2x - 14}</math>. |
| − | |||
Latest revision as of 15:25, 1 June 2015
This is a sample, and is meant to represent the material usually covered in Math 22 for the second exam. An actual test may or may not be similar. Click on the boxed problem numbers to go to a solution.
Problem 1
Find all first and second partial derivatives of the following function, and demostrate that the mixed second partials are equal for the function
Problem 2
A dairy farmer plans to enclose a rectangular pasture adjacent to a river. To provide enough grass for his cows, the fenced pasture must contain 200 square meters of grass. If no fencing is required along the river, what dimensions will use the smallest amount of fencing?
Problem 3
Find the antiderivative:
Problem 4
Use implicit differentiation to find .
Problem 5
Find producer and consumer surpluses if the supply curve is given by , and the demand curve is given by .
Problem 6
Sketch the curve, including all relative exterma and points of inflection: .
Problem 7
Find the present value of the income stream from now until 5 years from now, given an interest rate
(Note: Once you plug in the limits of integration, you are finished; you do not need to simplify our answer beyond that step.)
Problem 8
Find ther marginial productivity of labor and marginal productivity of capital for the following Cobb-Douglas production function:
(Note: You must simplify so your solution does not contain negative exponents.)
Problem 9
Given demand , and cost , find:
- a) Marginal revenue when x = 7 units.
- b) The quantity (x-value) that produces minimum average cost.
- c) Maximum profit (find both the x-value and the profit itself).
Problem 10
Set up the formula to find the amount of money one would have at the end of 8 years if she invests $2100 in an account paying 6% annual interest, compounded quarterly.
Problem 11
Find the derivative: .
(Note: You do not need to simplify the derivative after finding it.)
Problem 12
Find the antiderivative:
Problem 13
Use differentials to find given
Problem 14
Find the following limit: .
