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Algebra II

A certain region had an initial rabbit population of 24, and the population is increasing at a rate of 26% each year due to a lack of natural predators. Write an exponential function that models N, the number of rabbits after t years, and use it to find the expected number of rabbits after 50 years.

Ava-May Nelson 2021-02-11

To determine:
To calculate:
a) The indicated operation $\sqrt{4} {c d} \cdot \sqrt{5} {c^{2}}$
b) The indicated operation $\sqrt{4} {y \sqrt{3} {y}}$
c) The indicated operation $\sqrt{5} {x} + \sqrt{5} {y} + \sqrt{4} {x}$

Tobias Ali 2021-02-11

Graph each polynomial function. $f (x) = x^{4} - 5 x^{2} + 6$

ringearV 2021-02-11

A footwear company is preparing to market a new kind of sports shoe. The company plans to spend $28 million on advertising. Past experience shows that the amount spent on television advertising should be 3.5 times as much as the amount spent on magazine advertising. Determine how much money should be spent on each type of advertising.

Efan Halliday 2021-02-11

Several models have been proposed to explain the diversification of life during geological periods. According to Benton (1997), The diversification of marine families in the past 600 million years (Myr) appears to have followed two or three logistic curves, with equilibrium levels that lasted for up to 200 Myr. In contrast, continental organisms clearly show an exponential pattern of diversification, and although it is not clear whether the empirical diversification patterns are real or are artifacts of a poor fossil record, the latter explanation seems unlikely. In this problem, we will investigate three models fordiversification. They are analogous to models for populationgrowth, however, the quantities involved have a differentinterpretation. We denote by N(t) the diversification function,which counts the number of taxa as a function of time, and by rthe intrinsic rate of diversification.
(a) (Exponential Model) This model is described by $\frac{d N}{d t} = r_{e} N (8.86) .$ Solve (8.86) with the initial condition N(0) at time 0, and show that $r_{e}$ can be estimated from $r_{e} = \frac{1}{t} \ln [\frac{N (t)}{N (0)}] (8.87)$
(b) (Logistic Growth) This model is described by $\frac{d N}{d t} = r_{l} N (1 - \frac{N}{K}) (8.88)$ where K is the equilibrium value. Solve (8.88) with the initial condition N(0) at time 0, and show that $r_{l}$ can be estimated from $r_{l} = \frac{1}{t} \ln [\frac{K - N (0)}{N (0)}] + \frac{1}{t} \ln [\frac{N (t)}{K - N (t)}] (8.89)$ for $N (t) < K .$
(c) Assume that $N (0) = 1$ and $N (10) = 1000 .$ Estimate $r_{e}$ and $r_{l}$ for both $K = 1001$ and $K = 10000 .$
(d) Use your answer in (c) to explain the following quote from Stanley (1979): There must be a general tendency for calculated values of $[r]$ to represent underestimates of exponential rates,because some radiation will have followed distinctly sigmoid paths during the interval evaluated.
(e) Explain why the exponential model is a good approximation to the logistic model when $\frac{N}{K}$ is small compared with 1.

sagnuhh 2021-02-11

Tell whether the function represents exponential growth or exponential decay. Then graph the function. $f (x) = (0.25)^{x}$

Carol Gates 2021-02-11

Solve the following system of linear equations in two variables by Substitution method.
$5 x - 2 y = - 7$
$x = - 2 y + 1$

Falak Kinney 2021-02-11

Solve the following equation by factoring
$z^{2} = 8 z$

preprekomW 2021-02-10

Express as a polynomial.
$(3 x + 2) (x - 5) (5 x + 4)$

FizeauV 2021-02-10

Find an LU factorization of the matrix A (with L unit lower triangular).
$A = [\begin{array}{cc} 5 & 4 \\ - 4 & - 3 \end{array}]$
L-?
U-?

Aneeka Hunt 2021-02-10

To calculate : The value of addition of the rational expression $\frac{2}{9 c} + \frac{7}{15 c^{3}}$

OlmekinjP 2021-02-10

One type of Iodine disintegrates continuously at a constant rate of 8.6% per day. Suppose the original amount, $P_{0}$ , is 10 grams, and let be measured in days. Because the Iodine is decaying continuously at a constant rate, we use the model $P = P_{0} e^{k t}$ for the decay equation, where k is the rate of continuous decay. Using the given information, write the decay equation for this type of Iodine.

CoormaBak9 2021-02-10

The first four terms of a sequence are given. Can these terms be the terms of an arithmetic sequence?
$38, - 22, - 6, 10, . . .$
Yes, the sequence is arithmetic.
No, the sequence is not arithmetic.
If the sequence is arithmetic, find the common difference d. (If the sequence is not arithmetic, enter DNE.)
$d = ?$

Bergen 2021-02-09

Solve the given system of differential equations.
$Q . x'_{1} = x_{1} - 3 x_{2}, x'_{2} = 3 x_{1} + x_{2}$ .

Reggie 2021-02-09

Solve the following system of equations. (Write your answers as a comma-separated list. If there are infinitely many solutions, write a parametric solution using t and or s. If there is no solution, write NONE.)
$x_{1} + 2 x_{2} + 6 x_{3} = 6$
$x_{1} + x_{2} + 3 x_{3} = 3$
$(x_{1}, x_{2}, x_{3}) =$ ?

waigaK 2021-02-09

left $f (x) = 2^{\sin (x)}$
Find f'(x)

Globokim8 2021-02-09

Use rational exponents to write a single radical expression ${(\sqrt[3]{x^{2} y^{5}})}^{12}$

Wierzycaz 2021-02-09

The first term in an arithmetic sequence is 9. The fourth term in the sequence is 24.the twentieth ter is 104. What is the common difference of this sequence? How do you find the nth term of the arithmetic sequence?

nicekikah 2021-02-09

The general term of a sequence is given $a_{n} = n + 5$ .
Determine whether the sequence is arithmetic, geometric, or neither.
If the sequence is arithmetic, find the common difference, if it is geometric, find the common ratio.

Lipossig 2021-02-09

Two times the least of three consecutive odd integers exceeds three times the greatest by 15. What are the integers?

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