Answer: 1/15
Step-by-step explanation:
1/15 = 0.6......
According to the information that is found in a different source, the recent data does not support the concerns of the critics. These are the numbers shown in the data:
<u>Airline / Outsource Percent / Delay Percent</u>
<em>Alaska</em> / 51.0 / 10.35
<em>American</em> / 29.4 / 20.32
<em>Delta</em> / 36.7 / 14.48
<em>Frontier</em> / 46.3 / 21.42
<em>Hawaiian</em> / 78.4 / 5.06
Based on this data, we can see that the critics do not seem to be justified in their concerns. We can see that airlines have outsourced much of the maintenance of their planes, but that there does not seem to be a strong correlation between this outsourcing and the percentage of delays. For example, the airline that outsources the most is Hawaiian (78.4%), yet it has the lowest percentage of delayed flights (5.06%).
"rate" is the keyword here. You'll need to come up with a "direct variation" relationship between c (number of calories burned) and w (person's weight):
c=kw
You are told that when w=130 lb, c = 89 calories. Find the constant of proportionality, k.
Then rewrite c=kw with this value of k substituted.
Finally, substitute 190 lb. for w in your formula and calculate the # of calories burned, c.
Answer:
"2"
Step-by-step explanation:
The quadratic equation has the form:
Looking at the expression given, if we can replace "(x^3 + 1)" with another variable, such as u, then it will create a quadratic equation in the form shown above.
Let's replace "(x^3 + 1)" with u and check if it creates a quadratic:
yes, this works because the equation we got in u falls in the quadratic category.
Answer choice 2 is right.
Answer:
91.61
Step-by-step explanation:
thats what i got