Answer:
0.6 inches or 6/10 also simplified to 3/5
Step-by-step explanation:
kiss
You see how when you count inches on a certain ruler like this, That it counts by 0.1 inches. Use your finger and count by 0.1 inches from the start to end of the jellybean
Answer:
The probability that applicants would you expect to have scores of 600 or above = 0.0401 or 4%
Step-by-step explanation:
<u><em>Explanation</em></u>:-
<em>Let "x" Scores are normally distributed </em>
<em> Given mean of the Population = 460 </em>
<em> standard deviation of the population = 80</em>
Let X = 600
<em>The probability that applicants would you expect to have scores of 600 or above</em>
<em>P( X≥600) = P( Z≥ 1.75) </em>
= 1- P( Z≤1.75)
= 1- ( 0.5 + A(1.75)
= 1- 0.5 - A(1.75)
= 0.5 - 0.4599 (from Normal table)
= 0.0401
<em>The probability that applicants would you expect to have scores of 600 or above = 0.0401 or 4%</em>
Answer:
B- enum and Dan bought 2 shirts
Step-by-step explanation:
I am not sure
Before we start, let's plot the graph of the hyperbola:
The problem wants the distance across the base of the base, we can see that at y = 0 (base) the "vases" touches x = 2.935. that's the distance between the center of the base and the end of it, looking at the image we can see that basically, it's the distance between the x-intercept, we know that half of the distance is 2.935, then the distance is
Therefore, the correct answer is 5.87 inches, distance between x-intercept
Answer:
the answer is 9/4 as improper