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Anastaziya [24]

3 years ago

14

Suppose your school cost for this term were $6820 and financial aid covered 75% of that amount. How much did financial aid cover

? How much do you still have to pay?

1 answer:

sveticcg [70]3 years ago

7 0

Answer:

Aid paid for 5115

You pay 1705

Step-by-step explanation:

6820×.75= 5115

6820-5115= 1705

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3 years ago

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Which angle is an x–intercept for the function y= cos(/<br> x)

emmasim [6.3K]

For the function
y = cos(1/2 x)
The x-intercept can be calculated by equating the function to zero and solving for x. So,
y = cos(1/2 x) = 0
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1/2 x = 90° +180°n
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3 years ago

Find the median of -12/4, 18/5, -25,1/5,10

sashaice [31]

Arrange from smallest to largest
-25, -12/4, 1/5, 18/5, 10
chose the middle number
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3 years ago

Evaluate the series 8 + 4 + 2 + . . .

Norma-Jean [14]

Answer:

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Step-by-step explanation:

a/(1-r)

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4 years ago

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For what value of c does x^2−2x−c=4 have exactly one real solution?<br> PLEASE HELP!!!!!!!

Paul [167]

Answer:

-5

Step-by-step explanation:

Moving all terms of the quadratic to one side, we have

$x^2-2x-(c+4)=0$ .

A quadratic has one real solution when the discriminant is equal to 0. In a quadratic $ax^2+bx+d$ , the discriminant is $\sqrt{b^2-4ad}$ .

(The discriminant is more commonly known as $\sqrt{b^2-4ac}$ , but I changed the variable since we already have a $c$ in the quadratic given.)

In the quadratic above, we have $a=1$ , $b=-2$ , and $d=-(c+4)$ . Plugging this into the formula for the discriminant, we have

$\sqrt{(-2)^2-4(1)(-(c+4))$ .

Using the distributive property to expand and simplifying, the expression becomes

$\sqrt{4-4(-c-4)}=\sqrt{4+4c+16}\\~~~~~~~~~~~~~~~~~~~~~~=\sqrt{20+4c}\\~~~~~~~~~~~~~~~~~~~~~~=\sqrt{4}\cdot\sqrt{5+c}\\~~~~~~~~~~~~~~~~~~~~~~=2\sqrt{c+5}.$

Setting the discriminant equal to 0 gives

$2\sqrt{c+5}=0$ .

We can then solve the equation as usual: first, divide by 2 on both sides:

$\sqrt{c+5}=0$ .

Squaring both sides gives

$c+5=0$ ,

and subtracting 5 from both sides, we have

$\boxed{c=-5}.$

3 0

3 years ago