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3 years ago

What is the slope of the line given by the equation below?y + 5 = -22(x + 2)

Mathematics

1 answer:

tatyana61 [14]3 years ago

5 0

If you use the distributive property and multiply -22 by x and 2 you will come out with y+5= -22x-44. Then subtract 5 and it would cancel out and you subtract it from the -44. -44-5 is equal to -49. So your equation would be y= -22x-49. This means that your slope would be -22.

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Step-by-step explanation:

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taking the positive square root

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ValentinkaMS [17]

Step-by-step explanation:

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3 years ago

Graph the line with slope of 53 5/3 and goes through the point (2,1).

klasskru [66]

Answer:

We kindly invite you to see the image attached for further details.

Step-by-step explanation:

From Analytical Geometry we get that linear functions can be found after knowing a point and its slope. The standard form of a linear function is represented by the following formula:

$y =m\cdot x +b$ (Eq. 1)

Where:

$x$ - Independent variable, dimensionless.

$y$ - Dependent variable, dimensionless.

$m$ - Slope, dimensionless.

$b$ - y-Intercept, dimensionless.

At first we need to calculate the y-Intercept, which is cleared within (Eq. 1):

$b = y-m\cdot x$

If we know that $y = 1$ , $x = 2$ and $m = \frac{5}{3}$ , then the y-Intercept of the linear function is:

$b = 1-\left(\frac{5}{3} \right)\cdot (2)$

$b = -\frac{7}{3}$

Line with a slope of $\frac{5}{3}$ that goes through the point (2, 1) is represented by $y = \frac{5}{3}\cdot x -\frac{7}{3}$ .

Lastly, we graph the line by using a plotting software (i.e. Desmos), whose result is included below as attachment.

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3 years ago

The graphs below shows a change in the slope of the Line m from 34to 14.

Paladinen [302]

Look at the image attached to my answer.

When x is 12 for the first graph, we see that y is roughly 9. When x is 12 for the second graph, we see that y is roughly 3.

Thus, the value of y decreased from 9 to 3 after the change was applied to line M.

Let me know if you need any clarifications, thanks!

~ Padoru

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3 years ago

URGENT! FAST REPLY PLS!

Sergeeva-Olga [200]

Answer:

Step-by-step example explanation:

DOMAIN:

{

∣

≠

}

RANGE:

{

∣

≠

}

Explanation:

The domain consists of all numbers you can legally plug into the original. The excluded "illegal" values would be dividing by zero or negatives under square roots.

This expression has a denominator, so there is a risk of illegally dividing by zero. This would happen only if

−

This means that

is excluded from the domain. Therefore,

Domain: All real numbers except

. More formally, you could state the domain as

{

∣

≠

}

For rational functions, you find the range by evaluating the degree of the numerator compared to the degree of the denominator. If the degree of the top > degree of bottoms, then you have a horizontal asymptote at

. If they are equal, you have a horizontal asymptote. The coefficient of highest degree in the numerator is divided by the coefficient of the highest degree on the bottom. The result is

that fraction. So in our case, you have a horizontal asymptote at

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3 years ago