Question

Help (ss below)
@snowfalke0531

Answer 1

@snowflake0531

Answer 2

Use the quadratic formula, simplify the roots and you will get one of your answer choices

Answer 3

Or pull out wolframalpha
then you can just write it in without even doing that xddd

Answer 4

nah, how ab u go the old fashion way and solve. Use the quadratic formula

Answer 5

._. It's none of them?

Answer 6

can u show the steps that u used, so i can either correct or check your work

Answer 7

I'm just guessing-

Answer 8

BRUH
you don't 'guess'
use the quadratic formula

Answer 9

okay jeez >.>

Answer 10

alr, try again

Answer 11

I used WolframAlpha- like snow said

Answer 12

bruh, use the quadratic formula

Answer 13

that website isn't teaching you, also gives u an answer in decimal

Answer 14

Do you not know the quadratic formula? you do learn it in algebra

Answer 15

Ik what it is

Answer 16

ok, whats the problem then?

Answer 17

???

Answer 18

lemme write it down >.>

Answer 19

ok

Answer 20

I'm lost-

Answer 21

wuafiepgruh3gtr
write down the quadratic formula first

Answer 22

very simple, just plug in the values for the quadratic formula. You're lost? how?

Answer 23

what are the values in my questionnnnnnnnnnn- that's how-

Answer 24

what is that supposed to mean, plug in the values for a, b and c into the quadratic formula?

Answer 25

oh- okay

Answer 26

\[x=\frac{ -b \pm \sqrt{b^2-4ac} }{ 2a }\]\[x=\frac{ 3\pm \sqrt{3x^2-4(3*4} }{ 2(3) }\]??right?

Answer 27

bruh what is your b

Answer 28

close, not close, there is a problem with your discriminant, try again

Answer 29

3x^2

Answer 30

that is wrong, its b^2

Answer 31

dhhreuhb- Imma just guess

Answer 32

what, where is guessing getting you. Look in algebra 1 you learn ab stuff like this, you need to actually know how to do this or you will struggle later on

Answer 33

do I even need this- no >.>

Answer 34

I'm guessing the second one

Answer 35

lol, do what you want, don't ask for help if you don't want to take it

Answer 36

thx ig >.>