Practice proportionality. A 50 difference between 100 and 150 is less relevant than 50 in 25 and 75. Its like you have 1 billion dollars and i give you 10 dollars. Its worthless right? What if you have 20 dollars and i give you again 10 dollars, its half of what you have. See the difference? Same number but different value.
Answer:
A. 33x + 92y
Step-by-step explanation:
Set up the problem like this and combine like terms:
40x + 58y
- 7x + 34y
--------------------
33x + 92y
Or, set up the problem like this and combine like terms:
(40x + 58y) + (-7x + 34y)
40x + 58y - 7x + 34y
40x - 7x + 58y + 34y
33x + 92y
You should get the same answer with either method.
Which of the following relations represents a function? A. {(1, 1), (1, 2), (1, 3)} B. {(1, 1), (2, 1), (3, 1)} C. {(1, 1), (2,
ludmilkaskok [199]
Answer:
D. Both B and C.
Step-by-step explanation:
For an ordered pair relation to represent a function, then none of the first coordinate must repeat.
In other words, no two or more ordered pairs should have the same first coordinate.
For options A, the first coordinate repeated.
For options B and C, none of the first coordinates repeat.
Both represent a function.
The correct choice is D
Answer:
10 is NOT a solution for -2 (x - 13) - 7 + 5 x <0
Step-by-step explanation:
Here, the given expression is : -2 (x - 13) - 7 + 5 x <0
To check : If it holds true for x = 10
Put x = 10 in the lefts side, we get:
-2 (x - 13) - 7 + 5 x = -2 ( 10 -13) - 7 + 5 (10)
= -2 (-3) -7 + 50
= 6 - 7 + 50 = -1 + 50
= 49
⇒ at x = 10 , -2 (x - 13) - 7 + 5 x = 49
and Right side of the inequality is 0.
49 < 0 is a contradiction , as 49 ≮ ( is not less than) 0
Hence, 10 is NOT a solution for -2 (x - 13) - 7 + 5 x <0
