Answer:
There are 3 critical values of f on the open interval (0,10).
Step-by-step explanation:
It is given that the first derivative of the function f is
We need to find the number of critical values of f on the open interval (0,10).
To find the critical values we have to find the value of x for which f'(x)=0.
Using graphing calculator we get
All the values 1.086, 2.320, 3.681 lie on the interval (0,10).
Therefore, there are 3 critical values of f on the open interval (0,10).
1. -1/5>-3/5 because we have like denominators we compare the inputs by the numerators.
2. 3/4 > 5/8 the least common denominator is: 8
Rewriting as equivalent fractions with the LCD:
3/4 = 6/8 5/8 = 5/8
Comparing the numerators of the equivalent fractions we have:
6/8 > 5/8
Since she wrote the numbers 1-100, we know that the probability for one number is 1/100.
If she selects a number without looking, it's a 1/100 chance she'll pull out one specific number.
However, here we need to find the probability of a number below 5. There are four numbers below 5 from the range to 1-100 and they are 1, 2, 3, and 4.
Therefore, since there are 4 numbers below 5, we have a 4/100 chance of Jane pulling out a number below 5.
In simplified terms it would be
In decimal form, it would be 0.04
Answer:
you can evaluate an expression by solving for x
Step-by-step explanation: for example
6x=12
you would divide by six by both sides
= to 6
Answer:
Step-by-step explanation:
In the Slope-Intercept Formula, , <em>b</em><em> </em>represents the y-intercept, and the <em>rate of</em><em> </em><em>change</em><em> </em>[<em>slope</em>] is represented by <em>m</em>,<em> </em>so the slope is −⅔.
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