If you graph the equation then one of the point should be on (5,1)
Z=-b-17/a+4
<span>Move all <span>z</span>-terms on one side of the equation, and move all constant terms to the other side of the equation.
Using the distributive property, group like terms together on both sides of the equation.
To isolate <span>z</span>, divide both sides by the coefficient of <span><span>z</span></span></span>
Answer:
The average change in temperature in each minute would be A) -1.1ºF and B) -1.7ºF.
Step-by-step explanation:
To A) write an expression that represents the average change in temperature each minute, and B) if Edgar repeats the experiment and finds the average change in temperature each minute is 1 ° F greater in the second trial than in the first trial, to determine what is the average change in temperature each minute in the second trial of the experiment, the following calculations must be performed:
A)
(-2 x 4 + -3 x 3 + 6) / 10 = X
(-8 + -9 + 6) / 10 = X
-11 / 10 = X
-1.1 = X
B)
(-3 x 4 + -4 x 3 + 7) / 10 = X
(-12 + -12 + 7) / 10 = X
-17/10 = X
-1.7 = X
Therefore, the average change in temperature in each minute would be A) -1.1ºF and B) -1.7ºF.
so sorry if wrong