Answer:
<u>1.56 is greater than 1.29</u>. (Check after the decimal point, 5 is greater than 2, so 1.56 is greater than 1.29)
Answer:
The domain is all of the x values. From the graph, all of the x values are greater than or equal to 0 so the answer is x ≥ 0.
Answer:
The equation in the slope-intercept form will be:
Step-by-step explanation:
Given the points
Finding the slope between the points using the formula




We know that the point-slope of the line equation is

substituting
and (-39,49) in the equation


Now writing the equation in slope-intercept form

where m is the slope and b is the y-intercept






∵ 
Where
and the y-intercept i.e. 
Therefore, the equation in the slope-intercept form will be: