a. The difference between two outputs that are 1 unit apart.
You need to Use y2 - y1 / x2 - x1 to find the difference
I will choose x2 as 1 and x1 as 0
(29 - 21) / (1 - 0)
8/1 so The difference is 8 per 1 unit.
b. Use the same formula
I will choose -3 as x2 and -5 as x1
(5 - (-11)) / (-3 - (-5))
(5 + 11) / (-3 + 5)
16 / 2 so the difference is 16 per 2 units.
c. I will choose 2 as x2 and -1 as x1
(45 - 21) / (2 - (-1))
24/3 so the difference is 24 per 3 units.
d. The ratios of the differences to the input intervals reduced all equal each-other, which is 8 per 1 unit.
I don’t know the answer and that’s on god
(2, 2)
Points B and C are symmetric (Divided by the y axis) so that means we have to find the mirrored version of A that is divided by thee y axis which is (2, 2)
As the temperature may remain constant over some period of time or may change at every moment So a continuous graph will be the best way to show the temperature over 24 hour period.
So the answer should be
A continuous graph
Answer:
(1,4) (2,1) (5,1) (4,4)
Step-by-step explanation:
The options are:
(-4,-4) (-4,-1) (-1, -4) (-1,-1)
(-2,-4) (-1, -1) (1,-1) (2, -4)
(1,1) (2,4) (5, 4) ( 4,1)
(1,4) (2,1) (5,1) (4,4)
The only one which has two sides with negative slopes is the last one.
Slope of the side that passes through (1,4) and (2,1): (4 - 1) / (1 - 2) = -3
Slope of the side that passes through (4,4) and (5,1): (4 - 1) / (4 - 5) = -3
