Answer:
B and C work. A and D do not.
Step-by-step explanation:
This is one of those questions that you have to go through each answer to see what the results are. You don't have to go far to eliminate A and D so let's do that first.
A]
5n + 6
Let n = 1
5(1) + 6
5 + 6= 11
However there is trouble beginning with n = 2
5*2 + 6
10 + 6
16 All you need is one wrong answer and the choice is toast. So A won't work.
================
Try D
6(n - 1)+ 5
n=0
6*(-1) + 5
-6 + 5
- 1
And D has been eliminated with just 1 attempt. n= 2 or n = 1 would be even worse. D is not one of the answers.
=============
B
Let n = 1
6(1) + 5
6 + 5
11 The first term works.
n = 2
6*(2) + 5
12 + 5
17 and n = 2 works as well. Just in case it is hard to believe, let's try n = 3 because so far, everything is fine.
n = 3
6*(3) + 5
18 + 5
23 And this also works. I'll let you deal with n = 4
========
C
n = 0
6(0 + 1) + 5
6*1 + 5
6 + 5
11
n = 1
6(1 + 1) + 5
6*2 + 5
12 + 5
17 which works.
So C is an answer.
Answer:
I am unable to see the attachment
You would multiply 6 x 6 for tge pear to get 36 then multiply that by 3 dollars and get your answer and for the apples u multiply 1 with 8 to 8 dollars and see which one is cheap and that is the better one
The domain will be how far your graph/function/relation reaches across the x axis. Then the range is how far it stretches up and down the y axis.
So for this relation your domain is x is everything greater than -4 and less than or equal to 5.
And the range is y is everything greater than or equal to -2 and less than 5.
I'm gonna attach a picture as well with the specific notation that we were taught to write with. If your unfamiliar is might be new and confusing but it's actually very simple.
Also I would like to point out that I was specifying greater/less than AND if it was equal to or not. Because from what I know, if there are open or shaded in dots on the graph,
white dots do not mean equal to, so that number it's on will not be included. Only if the dot is shaded then it is included.
Hope I helped! :)
We know that
A number written out showing the sum of
each place value in the number is a number in expanded form.
<span> When writing numbers in </span>expanded form<span>, we must remember that it simply means to extend the </span>digits<span>, or numbers, out according to their place value
Examples</span>
<span>
the answer isPlace Value</span>