<h2>
Hello!</h2>
The answer is:
- The first operation match with the polynomial:
B.
- The second operation match with the polynomial:
A.
- The third operation match with the polynomial:
C.
<h2>Why?</h2>
In order to solve the given operations, we need to group the like terms.
Remember, like terms are terms that share the same variable and the same exponent.
For example:
We only operate with the variables that shares the same exponent.
Also, we need to remember the distributive property:
So, we are given the following polynomials:
And we need to perform the following operations:
First operation,
So, the first operation match with the polynomial:
B.
Second operation,
So, the second operation match with the polynomial:
A.
Third operation,
So, the second operation match with the polynomial:
C.
Have a nice day!
The final result is:
infinite solutions.
Since the solution has equal sides, there are infinite solutions.
Answer:
AND
Step-by-step explanation:
I think the plus sign is supposed to be a x. The attached image contains the work.
Answer:
A. is (2,2) B. is (4,4) C. is (-5,10) V. is (-5,10) U. is (5,10) T. is (5,-10) S. is (-5,-10) P. is (0,2) Vertex of A is (0.5,4) The best way to describe JKLM to WXYZ is up 4 to the right 1. I hope that helps a bit.
Step-by-step explanation:
11.
Just look at the graph, and you will see that an original inequality is:
Multiply both sides by 5:Add 6 to both sides:And you will get an equivalent inequality to
.
12.
Just look at the graph, and you will see that an original inequality is:
Multiply both sides by 5:Add 4 to both sides:And you will get an equivalent inequality to
.