Polynomial Functions - Math

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Question

List the transformations that have been enacted upon the following equation:

Answer

Since the equation given in the question is based off of the parent function $y = $x^{4}$$ , we can write the general form for transformations like this:

$g(x) = $a[b(x-c)^{4}$]+d$

determines the vertical stretch or compression factor.

If $\left | a \right |$ is greater than 1, the function has been vertically stretched (expanded) by a factor of .

If $\left | a \right |$ is between 0 and 1, the function has been vertically compressed by a factor of $\frac{1}{\left| a \right|}$ .

In this case, is 4, so the function has been vertically stretched by a factor of 4.

determines the horizontal stretch or compression factor.

If $\left | b \right |$ is greater than 1, the function has been horizontally compressed by a factor of .

If $\left | b \right |$ is between 0 and 1, the function has been horizontally stretched (expanded) by a factor of $\frac{1}{\left| b \right| }$ .

In this case, is 6, so the function has been horizontally compressed by a factor of 6. (Remember that horizontal stretch and compression are opposite of vertical stretch and compression!)

determines the horizontal translation.

If is positive, the function was translated units right.

If is negative, the function was translated units left.

In this case, is 3, so the function was translated 3 units right.

determines the vertical translation.

If is positive, the function was translated units up.

If is negative, the function was translated units down.

In this case, is -7, so the function was translated 7 units down.

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Question

Solve the following system of equations:

Answer

We will solve this system of equations by Elimination. Multiply both sides of the first equation by 2, to get:

Then add this new equation, to the second original equation, to get:

or

Plugging this value of back into the first original equation, gives:

or

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Question

It took Jack 25 minutes to travel 14 miles, what was Jack's average speed in mph?

Answer

$speed=\frac{distance}{time}$$

$speed=\frac{14\ miles}{25\ minutes }$$

* We have to change the time from minutes to hours, there are 60 minutes in one hour.

$speed= $\frac{14\ miles}{25\ minutes}$ * $\frac{60\ minutes}{1\ hour}$$

$speed= 33.6\ mph$

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Question

Let and . Evaluate .

Answer

Substitute into , and then substitute the answer into .

$f(x)= $3x^{2}$-2$

$f(5) $=3(5)^{2}$-2= 75 -2 = 73$

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Question

What transformations have been enacted upon when compared to its parent function, ?

Answer

First, we need to get this function into a more standard form.

Now we can see that while the function is being horizontally compressed by a factor of 2, it's being translated 3 units to the right, not 6. (It's also being vertically stretched by a factor of 4, of course.)

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Question

If and , what is ?

Answer

In this problem, the in the equation becomes --> $g((2x-5)^{}2-1)$ .

This simplifies to $4x^{}2-20x+25-1$ , or

$4x^{}2-20x+24$ .

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Question

Define and .

Find $(g \circ f) (x)$ .

Answer

By definition, $(g \circ f) (x) = g (f(x))$ , so

$(g \circ f) (x) = g ( 6x-7 )$

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Question

Define and $g(x) = $x^{2}$ - 5$ .

Find $(g \circ f) (x)$ .

Answer

By definition, $(g \circ f) (x) = g (f(x))$ , so

$(g \circ f) (x) = g (2x+7)$

$= \left ( 2x+7\right $)^{2}$ - 5$

$= \left ( 2x\right $)^{2}$ + 2 \cdot 2x \cdot 7 +7 ^{2} - 5$

$=4 x ^{2} + 28 x +49 - 5$

$=4 x ^{2} + 28 x +44$

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Question

Write the transformation of the given function moved five units to the left:

Answer

To transform the function horizontally, we must make an addition or subtraction to the input, x. Because we are asked to move the function to the left, we must add the number of units we are moving. This is the opposite of what one would expect, but if we are inputting values that are to the left of the original, they are less than what would have originally been. So, to counterbalance this, we add the units of the transformation.

For our function being transformed five units to the left, we get

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Question

Transform the function by moving it two units up, and five units to the left:

Answer

To transform a function we use the following formula,

where h represents the horizontal shift and v represents the vertical shift.

In this particular case we want to shift to the left five units,

and vertically up two units,

.

Therefore, the transformed function becomes,

.

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Question

Write the transformation of the given function flipped, and moved one unit to the left:

Answer

To transform a function horizontally, we must add or subtract the units we transform to x directly. To move left, we add units to x, which is opposite what one thinks should happen, but keep in mind that to move left is to be more negative. To flip a function, the entire function changes in sign.

After making both of these changes, we get

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Question

Shift up one unit. What is the new equation?

Answer

Expand the binomial.

Multiply negative by this quantity.

The polynomial in standard form is:

Shifting this graph up one will change the y-intercept by adding one unit.

The answer is:

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Question

Shift the graph up two units. What's the new equation?

Answer

Shifting this parabola up two units requires expanding the binomial.

Use the FOIL method to simplify this equation.

Shifting this graph up two units will add two to the y-intercept.

The answer is:

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Question

Shift to up two units. What is the new equation?

Answer

We will need to determine the equation of the parabola in standard form, which is:

Use the FOIL method to expand the binomials.

Shifting this up two units will add two to the value of .

The answer is:

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Question

List the transformations that have been enacted upon the following equation:

Answer

Since the equation given in the question is based off of the parent function $y = $x^{4}$$ , we can write the general form for transformations like this:

$g(x) = $a[b(x-c)^{4}$]+d$

determines the vertical stretch or compression factor.

If $\left | a \right |$ is greater than 1, the function has been vertically stretched (expanded) by a factor of .

If $\left | a \right |$ is between 0 and 1, the function has been vertically compressed by a factor of $\frac{1}{\left| a \right|}$ .

In this case, is 4, so the function has been vertically stretched by a factor of 4.

determines the horizontal stretch or compression factor.

If $\left | b \right |$ is greater than 1, the function has been horizontally compressed by a factor of .

If $\left | b \right |$ is between 0 and 1, the function has been horizontally stretched (expanded) by a factor of $\frac{1}{\left| b \right| }$ .

In this case, is 6, so the function has been horizontally compressed by a factor of 6. (Remember that horizontal stretch and compression are opposite of vertical stretch and compression!)

determines the horizontal translation.

If is positive, the function was translated units right.

If is negative, the function was translated units left.

In this case, is 3, so the function was translated 3 units right.

determines the vertical translation.

If is positive, the function was translated units up.

If is negative, the function was translated units down.

In this case, is -7, so the function was translated 7 units down.

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Question

Solve the following system of equations:

Answer

We will solve this system of equations by Elimination. Multiply both sides of the first equation by 2, to get:

Then add this new equation, to the second original equation, to get:

or

Plugging this value of back into the first original equation, gives:

or

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Question

It took Jack 25 minutes to travel 14 miles, what was Jack's average speed in mph?

Answer

$speed=\frac{distance}{time}$$

$speed=\frac{14\ miles}{25\ minutes }$$

* We have to change the time from minutes to hours, there are 60 minutes in one hour.

$speed= $\frac{14\ miles}{25\ minutes}$ * $\frac{60\ minutes}{1\ hour}$$

$speed= 33.6\ mph$

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Question

Let and . Evaluate .

Answer

Substitute into , and then substitute the answer into .

$f(x)= $3x^{2}$-2$

$f(5) $=3(5)^{2}$-2= 75 -2 = 73$

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Question

What transformations have been enacted upon when compared to its parent function, ?

Answer

First, we need to get this function into a more standard form.

Now we can see that while the function is being horizontally compressed by a factor of 2, it's being translated 3 units to the right, not 6. (It's also being vertically stretched by a factor of 4, of course.)

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Question

If and , what is ?

Answer

In this problem, the in the equation becomes --> $g((2x-5)^{}2-1)$ .

This simplifies to $4x^{}2-20x+25-1$ , or

$4x^{}2-20x+24$ .

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