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3 years ago

What do you add to get -9 but multiply to get -36?

Mathematics

2 answers:

schepotkina [342]3 years ago

8 0

Answer:27

Step-by-step explanation:

ivanzaharov [21]3 years ago

4 0

Answer:

Those numbers are -12 and 3

Step-by-step explanation:

First list the factors of -36

-36 = +/- 1, 2, 3, 4, 6, 9, 12, 18, and 36

Second figure out the two numbers that add up to be -9

But remember one number must be positive and the other negative.

Since one positive and negative equal a negative number

However, two negatives equal a positive

Those numbers are -12 and 3

I hope this helped :)

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A figure with vertical line symmetry is placed on the coordinate plane. Given that the points (–8, –4) and (–3, –4) are on the e

nevsk [136]

Based on the description, the edges lying on those coordinates can be considered end points to a line. In this scenario, we can apply the midpoint formula to find the coordinates that lies on the vertical symmetry.

Midpoint formula: (x1+x2) / 2 for the x coordinate
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After calculating this, we obtain (-5.5, -4) as our midpoint. Hence the answer is letter A.

3 0

4 years ago

Read 2 more answers

Please help thank you.

Neko [114]

C is the correct answer

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4 years ago

Does anybody know how to do time with exponential decay

My name is Ann [436]

From the message you sent me:

when you breathe normally, about 12 % of the air of your lungs is replaced with each breath. how much of the original 500 ml remains after 50 breaths

If you think of number of breaths that you take as a time measurement, you can model the amount of air from the first breath you take left in your lungs with the recursive function

$b_n=0.12\times b_{n-1}$

Why does this work? Initially, you start with 500 mL of air that you breathe in, so $b_1=500\text{ mL}$ . After the second breath, you have 12% of the original air left in your lungs, or $b_2=0.12\timesb_1=0.12\times500=60\text{ mL}$ . After the third breath, you have $b_3=0.12\timesb_2=0.12\times60=7.2\text{ mL}$ , and so on.

You can find the amount of original air left in your lungs after $n$ breaths by solving for $b_n$ explicitly. This isn't too hard:

$b_n=0.12b_{n-1}=0.12(0.12b_{n-2})=0.12^2b_{n-2}=0.12(0.12b_{n-3})=0.12^3b_{n-3}=\cdots$

and so on. The pattern is such that you arrive at

$b_n=0.12^{n-1}b_1$

and so the amount of air remaining after $50$ breaths is

$b_{50}=0.12^{50-1}b_1=0.12^{49}\times500\approx3.7918\times10^{-43}$

which is a very small number close to zero.

5 0

4 years ago

What is Z in the rhombus?

weeeeeb [17]

Answer: 27°

Step-by-step explanation:

The easiest way to find the measure of angle Z is to know that in a rhombus, the diagonals are perpendicular bisectors of each other. This means that all the four angles in the center are 90°.

Since we know that all angles in a triangle add up to 180°, we can set the sum of z, 63, and 90 to be 180 and solve for z.

$z+63+90=180\\z+153=180\\z=27$

Hence, z is 27°.

4 0

2 years ago

A= LW For W HELP ME!?!

madam [21]

W=A\L

Divide L from both sides

The L in the right cancels out

8 0

3 years ago