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3 years ago

14

Hey yall, my other meeting ended,

2 answers:

Tems11 [23]3 years ago

7 0

Answer:

1234567

Step-by-step explanation:

8090 [49]3 years ago

3 0

Answer:

no bro that's a bad idea

Step-by-step explanation:

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Are the two right triangles TRS and WUV congruent? If so, name the congruence postulate that applies. A. Congruent - SSS B. Cong

tresset_1 [31]

Is there a picture tagged along with it??

8 0

4 years ago

State the horizontal asymptote of the rational function. For full credit, explain the reasoning you used to find the horizontal

Rzqust [24]

So here are the rules of horizontal asymptotes:

Degree of Numerator > Degree of Denominator: No horizontal asymptote
Degree of Numerator = Degree of Denominator: $y=\frac{\textsf{leading coefficient of numerator}}{\textsf{leading coefficient of denominator}}$
Degree of Numerator < Degree of Denominator: y = 0

Looking at the rational function, since the degree of the numerator is 2 and the degree of the denominator is 1 (and 2 > 1), this means that <u>this function has no horizontal asymptote.</u>

5 0

3 years ago

What is the equation of the line parallel to 3x + 5y = 11 that passes through the point (15, 4)?

soldier1979 [14.2K]

Answer:

The answer is

<h2> $y = - \frac{3}{5} x + 13$ </h2>

Step-by-step explanation:

Equation of a line is y = mx + c

where

m is the slope

c is the y intercept

To find the equation of the parallel line we must first find the slope of the original line

The original line is 3x + 5y = 11

We must first write the equation in the general equation above

So we have

5y = - 3x + 11

Divide both sides by 5

<h3> $y = - \frac{ 3}{5} x + \frac{11}{5}$ </h3>

Comparing with the general equation above

Slope = - 3/5

Since the lines are parallel their slope are also the same

Slope of parallel line = - 3/5

So the equation of the line using point

(15, 4) and slope - 3/5 is

<h3> $y - 4 = - \frac{3}{5} (x - 15) \\y - 4 = - \frac{3}{5} x + 9 \\ y = - \frac{3}{5} x + 9 + 4$ </h3>

We have the final answer as

<h3> $y = - \frac{3}{5} x + 13$ </h3>

Hope this helps you

8 0

3 years ago

CAN SOMEONE HELL WITH THIS WILL GIVE 5 STARS

In-s [12.5K]

Answer:

<em>Thus both answers are: Positive infinity</em>

Step-by-step explanation:

<u>The Absolute Value</u>

It's the positive magnitude of a number, regardless of its sign, or zero if the number is zero.

Some examples of absolute values are:

$\mid 4 \mid =4$

$\mid -4 \mid =4$

$\mid 0 \mid =0$

$\mid -107.5 \mid =107.5$

We have the function:

$g(x)=4\mid x-2\mid -3$

As x approaches negative infinity, the absolute value approaches positive infinity, and the whole expression approaches positive infinity.

As x approaches positive infinity, the absolute value approaches positive infinity, and the whole expression approaches positive infinity.

Thus both answers are: Positive infinity

7 0

3 years ago

Find the 13th term in the following<br> arithmetic sequence :<br> 2, 10, 18, 26, ...

kondor19780726 [428]

Answer:

98

Step-by-step explanation:

This is an arithmetic sequence

The common difference is 10-2 =8

a1 = 2

an = a1+d(n-1)

an = 2+8(n-1)

we want the 13th term

a13 = 2 +8(13-1)

=2+ 8*12

= 2+96

= 98

8 0

4 years ago

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