Below:
Step-by-step explanation:
In the graph, the y-intercept is 5 and the slope is 1 . So, for x=0, the function shown in the graph has a greater value. Also, since the slope is positive, it's increasing. However, if you look at the values in the table, you will see that the y -values are equal to the square of x.
EXAMPLE:
Two functions are represented in different ways.
Function 1: The input-output table shows the x - and y -values of a quadratic function.
x    y
0 Â Â Â Â 0
1 Â Â Â Â 1
2 Â Â Â Â 4
3 Â Â Â Â 9
4 Â Â Â 16
6 Â Â Â 36
8 Â Â Â 64
Function 2: The graph of a linear function is shown
In the graph, the y-intercept is 5 and the slope is 1 . So, for x=0, the function shown in the graph has a greater value. Also, since the slope is positive, it's increasing.
However, if you look at the values in the table, you will see that the y -values are equal to the square of x. These values will have a faster-than-linear rate of growth.
For example, for the function in the table, when x=8, y=64. You can see in the graph that the line is not yet that high when x=8.
Hope it helps...
It's Muska... 。◕ ‿ ◕。
