Answer:
Option B.
Step-by-step explanation:
We can see that we have an asymptote at x = 2
Remember that in a rational function, the asymptote is at the x-value such that the denominator is equal to zero.
So, the denominator is something like:
(x + a)
we have that the denominator is zero when x = 2
Then:
(2 + a) = 0
solving that for a, we get:
a = -2
Then the denominator of the rational function is:
(x - 2)
For the given options, the only one with this denominator is option B, then the correct option is B.
Answer:im not sure what u mean
Step-by-step explanation:
Answer:
BE= 19
Step-by-step explanation:
4x+3 = 12x-10
2(4x+3) = 12x-10
8x+6 = 12x-10
8x-8x+6 = 12x-8x-10
6 = 4x-10
10+6 = 4x-10+10
16 = 4x
16/4 = 4x/4
4 = x
BE 8(4)+6 = 38 38/2 = 19
AC 12(4)-10 = 38
The diagonals of a rectangle are equal.
Answer:
7(x+4)-2/3 (x-6) < 2[x-3(x+5)]
Do it 1 step at a time.
7(x+4)-2/3 (x-6) < 2[x-3x-15]
7x+28 - 2/3 (x-6) < 2[x-3x-15]
I'll assume you mean (2/3)*x-6)
---
7x+28 - (2x/3) - 4 < 2[-2x-15]
7x+24 - (2x/3) < -4x-30
Add 4x
11x+24 - (2x/3) < -30
Add 30
11x + 54 - (2x/3) < 0
Multiply thru by 3
33x + 162 - 2x < 0
31x < 162
x < 162/31
Step-by-step explanation:
5/2
70 is the constant number that doesn’t change, but anytime you increase t you are raising it above 5/2. So every time you grow 5/2.