Answered

Discover how IDNLearn.com can help you find the answers you need quickly and easily. Get accurate and detailed answers to your questions from our dedicated community members who are always ready to help.

Marginal Revenue

The demand function for a certain boat company's 34 ft Sundancer yacht is:
[tex]\[ p = 900 - 0.01x \ln(x) \][/tex]
where [tex]\( x \)[/tex] denotes the number of yachts and [tex]\( p \)[/tex] is the price per yacht in hundreds of dollars.

(a) Find the revenue function [tex]\( R(x) \)[/tex] and the marginal revenue function [tex]\( R'(x) \)[/tex] for this model of yacht.

[tex]\[ R(x) = x \cdot (900 - 0.01x \ln(x)) \][/tex]
[tex]\[ R'(x) = 900 - 0.02x \ln(x) - 0.01x \][/tex]

(b) Use the result of part (a) to estimate the revenue to be realized from the sale of the 225th 34 ft Sundancer yacht. (Round your answer to the nearest dollar.)

[tex]\[ \$199,792 \][/tex]

Sagot :

GinnyAnsweridn
Certainly! Let's dive into the solution step-by-step for both parts (a) and (b).

### Part (a): Revenue Function and Marginal Revenue Function

We are given the demand function for the yacht:
[tex]\[ p = 900 - 0.01x \ln(x) \][/tex]
where [tex]\(x\)[/tex] denotes the number of yachts and [tex]\(p\)[/tex] is the price per yacht in hundreds of dollars.

Step 1: Define the Revenue Function [tex]\(R(x)\)[/tex]

Revenue [tex]\(R(x)\)[/tex] is calculated by multiplying the number of yachts [tex]\(x\)[/tex] by the price per yacht [tex]\(p\)[/tex]. Thus, the revenue function is:
[tex]\[ R(x) = x \cdot p \][/tex]

Substituting the given demand function into this formula:
[tex]\[ R(x) = x \cdot (900 - 0.01x \ln(x)) \][/tex]

This simplifies to:
[tex]\[ R(x) = 900x - 0.01x^2 \ln(x) \][/tex]

Step 2: Find the Marginal Revenue Function [tex]\(R'(x)\)[/tex]

The marginal revenue function [tex]\(R'(x)\)[/tex] is the derivative of the revenue function [tex]\(R(x)\)[/tex] with respect to [tex]\(x\)[/tex].

To differentiate [tex]\(R(x) = 900x - 0.01x^2 \ln(x)\)[/tex], use the product rule and chain rule for differentiation:
[tex]\[ R'(x) = \frac{d}{dx}[900x] - \frac{d}{dx}[0.01x^2 \ln(x)] \][/tex]

First term:
[tex]\[ \frac{d}{dx}[900x] = 900 \][/tex]

Second term:
Using the product rule for [tex]\(\frac{d}{dx}[0.01x^2 \ln(x)]\)[/tex]:
[tex]\[ \frac{d}{dx}[0.01x^2 \ln(x)] = 0.01 \left (2x \ln(x) + x \right ) = 0.01 \left (2x \ln(x) + x \right) = 0.02x \ln(x) + 0.01x \][/tex]

Thus, summing these results, we have:
[tex]\[ R'(x) = 900 - (0.02x \ln(x) + 0.01x) \][/tex]

Simplified, this becomes:
[tex]\[ R'(x) = 900 - 0.02x \ln(x) - 0.01x \][/tex]

So, summarizing part (a):
[tex]\[ R(x) = 900x - 0.01x^2 \ln(x) \][/tex]
[tex]\[ R'(x) = 900 - 0.02x \ln(x) - 0.01x \][/tex]

### Part (b): Estimate the Revenue from the Sale of the 225th Yacht

We need to find the revenue [tex]\(R(x)\)[/tex] at [tex]\(x = 225\)[/tex].

Using the revenue function [tex]\(R(x)\)[/tex] derived in part (a):
[tex]\[ R(225) = 900 \cdot 225 - 0.01 \cdot 225^2 \cdot \ln(225) \][/tex]

Given that the calculation has already been done, the rounded revenue at [tex]\(x = 225\)[/tex] is:
[tex]\[ R(225) \approx 199758 \][/tex]

Therefore, the estimated revenue from the sale of the 225th [tex]\(34\)[/tex] ft Sundancer yacht is:
[tex]\[ \boxed{199758} \][/tex]
We appreciate every question and answer you provide. Keep engaging and finding the best solutions. This community is the perfect place to learn and grow together. IDNLearn.com has the solutions you’re looking for. Thanks for visiting, and see you next time for more reliable information.