Math 181 Miniproject 2: Population and Dosage.md --- Math 181 Miniproject 2: Population and Dosage === **Overview:** In this miniproject you will use technological tools to turn data and into models of real-world quantitative phenomena, then apply the principles of the derivative to them to extract information about how the quantitative relationship changes. **Prerequisites:** Sections 1.1--1.6 in *Active Calculus*, specifically the concept of the derivative and how to construct estimates of the derivative using forward, backward and central differences. Also basic knowledge of how to use Desmos. --- :::info 1\. A settlement starts out with a population of 1000. Each year the population increases by $10\%$. Let $P(t)$ be the function that gives the population in the settlement after $t$ years. (a) Find the missing values in the table below. ::: (a) | $t$ | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | |--------|------|---|---|---|---|---|---|---| | $P(t)$ | 1000 | 1100 | 1210 | 1331 | 1464 | 1610.51 | 1771.56 | 1948.72 :::info (b) Find a formula for $P(t)$. You can reason it out directly or you can have Desmos find it for you by creating the table of values above (using $x_1$ and $y_1$ as the column labels) and noting that the exponential growth of the data should be modeled using an exponential model of the form \\[ y_1\sim a\cdot b^{x_1}+c \\] ::: (b) $y_1\sim a\cdot b^{x_1}+c$ a= 908.405 b= 1.10005 c= .717479 $P(t)\sim 908.405\cdot 1.10005^{x_1}+.717479$ :::info (c\) What will the population be after 100 years under this model? ::: (c\) $P(100)= 142944.932856$ :::info (d) Use a central difference to estimate the values of $P'(t)$ in the table below. What is the interpretation of the value $P'(5)$? ::: (d) Used the central difference equation of $f(a)-f(b)/a-b$ | $t$ | 1 | 2 | 3 | 4 | 5 | 6 | |--- |---|---|---|---|---|---| | $P'(t)$ | 105 |115.5 | 127 | 139.755 |153.78 | 169.105 | :::info (e) Use a central difference to estimate the values of $P''(3)$. What is the interpretation of this value? ::: (e) 12.1375 can mean the rate in which the population of the people increases per year per year :::info (f) **Cool Fact:** There is a constant $k$ such that $P'(t)=k\cdot P(t)$. In other words, $P$ and $P'$ are multiples of each other. What is the value of $k$? (You could try creating a slider and playing with the graphs or you can try an algebraic approach.) ::: (f) $k=\frac{p'\left(1\right)}{p\left(t\right)}$ $p'(1)+k* p(1)$ $p'(1)=k* p(1)$ $k=\frac{105}{115.5}$ $k=.909$ :::success 2\. The dosage recommendations for a certain drug are based on weight. | Weight (lbs)| 20 | 40 | 60 | 80 | 100 | 120 | 140 | 160 | 180 | |--- |--- |--- |--- |--- |--- |--- |--- |--- |--- | | Dosage (mg) | 10 | 30 | 70 | 130 | 210 | 310 | 430 | 570 | 730 | (a) Find a function D(x) that approximates the dosage when you input the weight of the individual. (Make a table in Desmos using $x_1$ and $y_1$ as the column labels and you will see that the points seem to form a parabola. Use Desmos to find a model of the form \\[ y_1\sim ax_1^2+bx_1+c \\] and define $D(x)=ax^2+bx+c$.) ::: (a) $y_1\sim ax_1^2+bx_1+c$ a= .025 b= -.5 c= 10 $D(x) \sim .025x^2+-.5x+10$ :::success (b) Find the proper dosage for a 128 lb individual. ::: (b) $D(x) \sim .025x^2+-.5x+10$ D(128) = 355.6 :::success (c\) What is the interpretation of the value $D'(128)$. ::: (c\) The interpretation of D'(128) is at a weight of 128 youd need a dosage of 355.6 mg :::success (d) Estimate the value of $D'(128)$ using viable techniques from our calculus class. Be sure to explain how you came up with your estimate. ::: (d) $D(x) \sim .025x^2+-.5x+10$ lim h=0, $f(128+h)-f(128)/h$ $(.025(128+h)^2 -.5(128+h)+10)-(.025(128)^2-.5(128)-10)/h$ 5.75 mg/lb :::success (e) Given the value $D'(130)=6$, find an equation of the tangent line to the curve $y=D(x)$ at the point where $x=130$ lbs. ::: (e) f(a)+f'(a)(x-a) f(130)+f'(130)(x-130) x= 130, y= 367.5  :::success (f) Find the point on the tangent line in the previous part that has $x$-coordinate $x=128$. Does the output value on the tangent line for $x=128$ lbs give a good estimate for the dosage for a 128 lb individual? ::: (f) x= 128 then y or the dosage is 355.5 milligrams --- To submit this assignment click on the Publish button . Then copy the url of the final document and submit it in Canvas.