Difference between revisions of "022 Exam 1 Sample A, Problem 5"

Latest revision as of 11:39, 20 April 2015

Find the marginal revenue and marginal profit at $x=4$ , given the demand function

p={\frac {200}{\sqrt {x}}}

and the cost function

C(x)=100+15x+3x^{2}.

Should the firm produce one more item under these conditions? Justify your answer.

Foundations:
Recall that the demand function, $p(x)$ , relates the price per unit $p$ to the number of units sold, $x$ . Moreover, we have several important important functions:
$C(x)$ , the total cost to produce $x$ units; $R(x)$ , the total revenue (or gross receipts) from producing $x$ units; $P(x)$ , the total profit from producing $x$ units.
In particular, we have the relations
$P(x)=R(x)-C(x),$
and
$R(x)=x\cdot p(x).$
Finally, the marginal profit at $x_{0}$ units is defined to be the effective profit of the next unit produced, and is precisely $P'(x_{0})$ . Similarly, the marginal revenue or marginal cost would be $R'(x_{0})$ or $C'(x_{0})$ , respectively.

Solution:

Step 1:
Find the Important Functions: We have
$R(x)\,\,=\,\,x\cdot p(x)\,\,=\,\,x\cdot {\frac {200}{\sqrt {x}}}\,\,=\,\,200{\sqrt {x}}.$
From this,
$P(x)\,\,=\,\,R(x)-C(x)\,\,=\,\,200{\sqrt {x}}-\left(100+15x+3x^{2}\right).$

Step 2:
Find the Marginal Revenue and Profit: The equation for marginal revenue is
$R'(x)\,\,=\,\,\left(200{\sqrt {x}}\right)'\,\,=\,\,200\cdot {\frac {1}{2}}\cdot {\frac {1}{\sqrt {x}}}\,\,=\,\,{\frac {100}{\sqrt {x}}},$
while the equation for marginal profit is
$P'(x)\,\,=\,\,R'(x)-C'(x)\,\,=\,\,{\frac {100}{\sqrt {x}}}-(15+6x).$
At $x=4$ , we find the marginal revenue is
$R'(4)\,\,=\,\,{\frac {100}{\sqrt {4}}}\,\,=\,\,50.$
On the other hand, marginal profit is
$P'(4)\,\,=\,\,{\frac {100}{\sqrt {4}}}-(15+6(4))\,\,=\,\,50-39\,\,=\,\,11.$
Thus, it is profitable to produce another item.

Final Answer:
$R'(4)\,\,=\,\,50;\qquad P'(4)\,\,=\,\,11.$
Thus, it is profitable to produce another item.

Return to Sample Exam

@@ Line 13: / Line 13: @@
 ! Foundations: &nbsp;
 |-
-|Recall that the demand function, <math style="vertical-align: -25%">p(x)</math>, relates the price per unit <math style="vertical-align: -17%">p</math> to the number of units sold, <math style="vertical-align: 0%">x</math>.
+|Recall that the '''demand function''', <math style="vertical-align: -25%">p(x)</math>, relates the price per unit <math style="vertical-align: -17%">p</math> to the number of units sold, <math style="vertical-align: 0%">x</math>.
 Moreover, we have several important important functions:
 |-
 |
-*<math style="vertical-align: -20%">C(x)</math>, the total cost to produce <math style="vertical-align: 0%">x</math> units;<br>
+*<math style="vertical-align: -20%">C(x)</math>, the '''total cost''' to produce <math style="vertical-align: 0%">x</math> units;<br>
-*<math style="vertical-align: -20%">R(x)</math>, the total revenue (or gross receipts) from producing <math style="vertical-align: 0%">x</math> units;<br>
+*<math style="vertical-align: -20%">R(x)</math>, the '''total revenue''' (or gross receipts) from producing <math style="vertical-align: 0%">x</math> units;<br>
-*<math style="vertical-align: -20%">P(x)</math>, the total profit from producing <math style="vertical-align: 0%">x</math> units.<br>
+*<math style="vertical-align: -20%">P(x)</math>, the '''total profit''' from producing <math style="vertical-align: 0%">x</math> units.<br>
 |-
 |In particular, we have the relations
@@ Line 31: / Line 31: @@
 ::<math>R(x)=x\cdot p(x).</math>
 |-
-|Finally, marginal profit at <math style="vertical-align: -20%">x_0</math> units is defined to be the effective cost of the next unit produced, and is precisely <math style="vertical-align: -22%">P'(x_0)</math>.  Similarly, marginal revenue or cost would be <math style="vertical-align: -22%">R'(x_0)</math> or <math style="vertical-align: -22%">C'(x_0)</math>, respectively.
+|Finally, the '''marginal profit''' at <math style="vertical-align: -20%">x_0</math> units is defined to be the effective profit of the next unit produced, and is precisely <math style="vertical-align: -22%">P'(x_0)</math>.  Similarly, the '''marginal revenue''' or '''marginal cost''' would be <math style="vertical-align: -22%">R'(x_0)</math> or <math style="vertical-align: -22%">C'(x_0)</math>, respectively.
 |}
@@ Line 51: / Line 51: @@
 {| class="mw-collapsible mw-collapsed" style = "text-align:left;"
-!Step 1: &nbsp;
+!Step 2: &nbsp;
 |-
-|'''Find the Marginal Revenue and Profit:''' The marginal revenue is
+|'''Find the Marginal Revenue and Profit:''' The equation for marginal revenue is
 |-
 |
 ::<math>R'(x)\,\,=\,\,\left(200 \sqrt{x}\right) '\,\,=\,\,200\cdot \frac{1}{2}\cdot\frac{1}{\sqrt{x}}\,\,=\,\,\frac{100}{\sqrt{x}}, </math>
 |-
-|while the marginal profit is
+|while the equation for marginal profit is
 |-
 |
-::<math>P'(x)\,\,=\,\,R'(x)-C'(x)\,\,=\,\,\frac{100}{\sqrt{x}}-(30+6x).</math>
+::<math>P'(x)\,\,=\,\,R'(x)-C'(x)\,\,=\,\,\frac{100}{\sqrt{x}}-(15+6x).</math>
 |-
-|At <math style="vertical-align: -3%">x=4</math>, we find
+|At <math style="vertical-align: -3%">x=4</math>, we find the marginal revenue is
 |-
 |
@@ Line 71: / Line 71: @@
 |-
 |
-::<math>P'(4)\,\,=\,\,\frac{100}{\sqrt{4}}-(30+6x(4))\,\,=\,\,50-54\,\,=\,\,-4.</math>
+::<math>P'(4)\,\,=\,\,\frac{100}{\sqrt{4}}-(15+6(4))\,\,=\,\,50-39\,\,=\,\,11.</math>
 |-
-|Thus, it is <u>''not''</u> profitable to produce another item.
+|Thus, it is profitable to produce another item.
 |}
@@ Line 80: / Line 80: @@
 |-
 |
-::<math>R'(4)\,\,=\,\,50;\qquad P'(4)\,\,=\,\,-4. </math>
+::<math>R'(4)\,\,=\,\,50;\qquad P'(4)\,\,=\,\,11. </math>
 |-
-|Thus, it is <u>''not''</u> profitable to produce another item.
+|Thus, it is profitable to produce another item.
 |}
 [[022_Exam_1_Sample_A|'''<u>Return to Sample Exam</u>''']]

Difference between revisions of "022 Exam 1 Sample A, Problem 5"

Latest revision as of 11:39, 20 April 2015

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