Deck 4: Living in a Nonlinear World

Write the equation in the form $a x ^ { 2 } + b x + c = 0$
Then identify the values of a, b , and c .
-9 x(8 x+9)=4 x

Graph the function $f ( x ) = 2 ^ { x }$ .
Plot at least three points.

$30,000 is invested in an account that pays 2% simple interest. If the money is invested for 10 years, how much will the account be worth?

Solve the equation by using the quadratic formula. $$3 x ^ { 2 } + 15 x - 72 = 0$$

Factor the binomial completely. $$t ^ { 2 } - 9$$

Multiply the conjugates. $$\left( \frac { 11 } { 2 } x + \frac { 2 } { 5 } \right) \left( \frac { 11 } { 2 } x - \frac { 2 } { 5 } \right)$$

For $f ( x ) = 2 ^ { x }$ , find for $f ( 1 ) \text { and } f ( - 3 ) \text {. }$

Solve the equation by using the quadratic formula. $$x ^ { 2 } + 7 x - 8 = 0$$

Josephine deposited $8,000 in an account that pays 6% compounded annually.
Complete the table to determine the amount of her investment at the end of 3
years. $$\begin{array} { l | l | l } \text { Year } & \text { Interest } & \text { Total } \\\hline \text { 1st } & & \\\text { 2nd } & & \\\text { 3rd } & &\end{array}$$

Find the difference of
$\left( 4 m ^ { 3 } - 2 m + 24 \right) \text { and } \left( - 11 m ^ { 3 } + m ^ { 2 } + 16 m \right)$

Add the polynomials. $$\left( \frac { 7 } { 2 } y ^ { 3 } + 2 y - \frac { 1 } { 4 } \right) + \left( 2 y ^ { 3 } - 4 y ^ { 2 } + \frac { 21 } { 2 } \right)$$

Subtract the polynomials. $$\left( \frac { 15 } { 2 } y ^ { 3 } + 2 y - \frac { 1 } { 4 } \right) - \left( 2 y ^ { 3 } - 8 y ^ { 2 } + \frac { 27 } { 2 } \right)$$

Factor completely. $$a ^ { 2 } + 3 a b - 8 b ^ { 2 }$$

Write the equation in the form $a x ^ { 2 } + b x + c = 0$ Then identify the values of a, b , and c .
$- 4 x ^ { 2 } + x = 3$

Subtract the polynomials. $$\left( 4 t ^ { 3 } - 12 t + 6 \right) - \left( - 6 t ^ { 3 } + t ^ { 2 } + 16 t \right)$$

Factor completely. $$m ^ { 2 } + 4 m - 96$$

Simplify the expression. Write the answer in exponent form. $$y ^ { 3 } \cdot y ^ { 5 } \cdot y ^ { 7 } \cdot y ^ { 9 }$$

Simplify the expression. Write the answer in exponent form. $$10 ^ { 5 } \cdot 10 ^ { 7 }$$

Solve the equation. $$4 ^ { y } = 64$$

Add the polynomials. $$\left( 4 w ^ { 2 } + 8 w \right) + \left( 3 z ^ { 2 } - 5 z \right)$$

Scientists often use a process called carbon dating to estimate the age of
archaeological finds. The process measures the amount of carbon-14, a
radioactive isotope with a half-life of 5730 years. If a sample of wood from an
ancient artifact had 19 grams of carbon-14 initially, the amount remaining, in grams,
is given by $$A ( t ) = 19 \left( \frac { 1 } { 2 } \right) ^ { t / 5730 }$$
where $t$ is the number of years since the tree died. How many grams would be present after 22,920 years?

Find the opposite of the polynomial. $$- 9 x ^ { 4 } + 16 x ^ { 2 } - 11$$

Factor completely. $$t ^ { 2 } + 10 t + 16$$

Factor completely. $$x ^ { 2 } + 10 x y + 25 y ^ { 2 }$$

Graph the function $f ( x ) = 3 ^ { x + 2 }$ .
Plot at least three points.

Find the total amount for the investment using compound interest. $$\begin{array} { c | c | c | c | c } \text { Principal } & \text { Annual Interest Rate } & \text { Time in Years } & \text { Compounded } & \text { Total Amount } \\\hline \$ 9000 & 8.5 \% & 5 & \text { annually } &\end{array}$$

Find all values of k so that the distance from (8, -5)to (11, k)is 5 units.

Factor completely. $$x ^ { 2 } - 15 x + 54$$

Nick borrowed $2000 for 4 years and 3 months at 8% simple interest.
a. How much interest will Nick have to pay?
b. What will be the total amount that he has to pay back?

Write the equation in the form $a x ^ { 2 } + b x + c = 0$
Then identify the values of a, b , and c .
$x ^ { 2 } + 36 = 0$

Simplify the expression. Write the answer in exponent form. $$y ^ { 3 } \cdot y ^ { 5 } \cdot y ^ { 7 } \cdot y ^ { 9 }$$

Write the number in scientific notation.
483,000,000

Carla deposited $12,400 into an account paying 4% simple interest 5 years ago.
If she withdraws the entire amount of money, how much will she have?

Find the length of the unknown side.

Factor the binomial completely. $$16 x ^ { 2 } + 9 y ^ { 2 }$$

Graph the function $f ( x ) = 2 ^ { x }$ .
Plot at least three points.

Write the distance formula.

In a right triangle, one leg measures 14 km and the other leg measures 48 km.
Find the length of the hypotenuse.

If $6000 is invested in an account that pays 9% interest compounded monthly
for 4 years, label the variables P, r, n, and t.

Simplify.

Simplify. Write your answer in exponent form.

Write the number in scientific notation.

Find the simple interest and the total amount including interest. $$\begin{array} { c | c | c | c | c } \text { Principal } & \text { Annual Interest Rate } & \text { Time in Years } & \text { Interest } & \text { Total Amount } \\\hline \$ 5000 & 5.2 \% & 5 & &\end{array}$$

Multiply the conjugates.

Factor the binomial completely. $$25 x ^ { 2 } - 81 y ^ { 2 }$$

Factor the polynomial completely.
$x ^ { 2 } y ^ { 2 } - 9 x ^ { 2 } - 16 y ^ { 2 } + 144$

Factor the binomial completely. $$5 n ^ { 2 } - 80$$

Find the vertex of the parabola.

Perform the indicated operations. $$\left( 19 t ^ { 4 } - 2 t ^ { 2 } + 4 t \right) + \left( 2 t ^ { 4 } - 4 t + 27 \right) - \left( 4 t ^ { 4 } + t ^ { 2 } + 19 \right)$$

Simplify.

Factor completely.
$t ^ { 4 } x ^ { 2 } - 6 t ^ { 3 } x ^ { 3 } + 9 t ^ { 2 } x ^ { 4 }$

Clear parentheses and combine like terms.

The amount of $6,000 is invested at 5% for 3 years.
a. Compute the ending balance if the bank calculates simple interest.
b. Compute the ending balance if the bank calculates interest compounded annually.
c. How much more interest is earned in the account with compound interest?

Simplify the expression. Write the answer in exponent form. $$7 ^ { 5 } \cdot 7 ^ { 7 }$$

If a bank compounds interest semiannually for 8 years, how many total
compound periods are there?

Add the polynomials.

Multiply the polynomials. $$( 3.4 a + 7 ) ( 0.5 a - 9 )$$

Determine whether x and y vary directly, inversely, or jointly in the following equation.

Multiply the polynomials.

Add the polynomials.

Factor completely.

Simplify the expression. Write the answer in exponent form.

Identify a and determine if the parabola opens upward or downward.

Factor the binomial completely.

Subtract the polynomials.

Multiply the polynomials.

Apply the distributive property.

Factor completely.

Evaluate the expression by using a calculator.

Simplify.

Simplify.

Factor the polynomial completely.

Use the distance formula to find the distance between the two points.