Question

Graph the function below

Answer 1

Answer choices:

A.) http://learn.flvs.net/webdav/assessment_images/educator_algebra1_v17/04_11_part1/04_11_28a.gif

B.) http://learn.flvs.net/webdav/assessment_images/educator_algebra1_v17/04_11_part1/04_11_28b.gif

C.) http://learn.flvs.net/webdav/assessment_images/educator_algebra1_v17/04_11_part1/04_11_28c.gif

D.) http://learn.flvs.net/webdav/assessment_images/educator_algebra1_v17/04_11_part1/04_11_28d.gif

Answer 2

@mathstudent55 this is the last one

Answer 3

have you tried working the problem ?

Answer 4

Of course I have.. -.-

Answer 5

may i see it :)

Answer 6

by you typing it

Answer 7

I believe it's b. I said I tried, didn't say I got anywhere, I don't know where to start with it..

Answer 8

You're functionis derived from this particular function. Do you know what the image of \[y=\sqrt[3]{x}\] looks like?

Answer 9

Don't I have to change that to \[x^\frac{ 1 }{ 3 }\]?

Answer 10

yes

Answer 11

can you graph that? I want to see if you know the picture of this graph already so i can continue with describing the rest of the transformations in your given function \[y=\sqrt[3]{x+2}\]

Answer 12

unfortunately, no. I can't graph a single variable, with an exponent..

Answer 13

based off of this function. The difference between \[y=\sqrt[3]{x}\] and \[y=\sqrt[3]{x+2}\] is that there's a horizontal shift to the left. The hint is (x-(-2)) is found inside the function which makes a horizontal shift to exist.

Answer 14

then let aside of \[y=\sqrt[3]{x}\]
What about \[y=\] can you graph a square root?

Answer 15

\[y=\sqrt{x}\]

Answer 16

Since your choices are already presented, can you take a hint from them?

Answer 17

Is it A 0.0

Answer 18

Draw it for me.

Answer 19

In the drawing box bellow
v

Answer 20

Something like this..