The answer would be D, 4,096 because you would multiply each side by 8 and the gives you 16. Volume=length times width times height, so 16 cubed=4,096
Plug -8 in wherever there is an m
6(-8) = -8-4[-2(-8)+1-(-8)]
-48 = -8-4(16+1+8)
-48 = -8-4(25)
distribute the -4
-48= -8-100
-48=-108
which means -8 is not the right solution
It’s d the minimum value is 1 of the graph
Answer:
0.053
Step-by-step explanation:
This is a geometric distribution problem.
I'm geometric distribution problem,
E(X) = 1/p
Where;
E(X) is expected value and p is probability of success
Thus;
1/p = 12.5
p = 1/12.5
p = 0.08
Now, to find the probability that the sixth person tested is the first one with high blood pressure, we will use the probability formula in geometric distribution which is;
P(X = k) = qⁿ•p
q = 1 - p
q = 1 - 0.08
q = 0.92
Thus;probability that the sixth person tested is the first one with high blood pressure will be expressed as;
P(X > 5) = (0.92^(5)) × 0.08
P(X > 5) = 0.053
108.75
You would have to take 15 % of $725 so you do 725 x 0.15 and it = 108.75