Answer:
B. I belive ^_^
Step-by-step explanation:
We want the translation which maps X to X', etc.
If there is one, these will all be equal:
X' - X = (3, -5) - (0,0) = (3, -5)
Y' - Y = (0, -5) - (-3, 0) = (3, -5)
Z' - Z = (0, -1) - (-3, 4) = (3, -5)
They're all equal, and they're all our translation:
X' = X + (3, -5)
That's three units to the right, five down, last choice.
The total number of marbles in the box is 25, that is 9 green, 5 blue and 11 red. You wish to know t probability that the single chosen green or blue marble. There are a total of 14 green and blue marbles so the probability is 14/25 or 56%.
Answer:
f(2) = 5
Step-by-step explanation:
<h3><u>
Definitions:</u></h3>
Input values = x-coordinates.
- The input values are also known as the <u>domain</u>, which is the set of all real numbers. With the domain of a function, you could substitute any real number into a given function for x and produce a valid output.
Output values = y-coordinates
- The <u>range</u> is the set of all real numbers that depend on the input values plugged into the function. Thus, the range represents the output (y-values) that corresponds to the input values used into the function.
<h3><u>
Function Notation:</u></h3>
- In the function notation f(x), <em>f</em> is the function name, and <em>x</em> is your <u>input variable</u>.
- <u>Output values</u> are also called <u>functional values.</u> You could use any letter to represent a function name, such as g(x), w(x), etc.,.
<h3><u>Explanations:</u></h3>
This particular question asks for you to identify the corresponding output (y-value) of the given input value, x = 2. If you look at the graph, the x-coordinate, x = 2, corresponds to the y-coordinate of 5.
Therefore, f(2) = 5.
Attached is an edited screenshot of the graph that you posted, where it shows where f(2) = 5 is located on the graph.
1-1, 2-4, 3-9, 4-16, 5-25, 6-36, 7-49, 8-64, 9-81, 10-100, 11-121, 12-144