Max(f(x)) = f(3) = 4
Max(g(x)) = g(π/2) = 2
Max(h(x)) = h(5) = 3
Of these values, f(3) = 4 is the largest.
The function with the largest maximum is f(x).
Answer:
A. y=1/3x+2
Step-by-step explanation:
Use the slope formula and the slope-intercept form to find the slope m and y-intercept b
.
Slope:
1
/3
y-intercept:
(
0
,
2
)
Answer:
(1, 4) and (1,3), because they have the same x-value
Step-by-step explanation:
For a relation to be regarded as a function, there should be no two y-values assigned to an x-value. However, two different x-values can have the same y-values.
In the relation given in the equation, the ordered pairs (1,4) and (1,3), prevent the relation from being a function because, two y-values were assigned to the same x-value. x = 1, is having y = 4, and 3 respectively.
Therefore, the relation is not a function anymore if both ordered pairs are included.
<em>The ordered pairs which make the relation not to be a function are: "(1, 4) and (1,3), because they have the same x-value".</em>
Answer:
acute
Step-by-step explanation:
1. It cannot be right angle as the sides does not satisfy pythagoras theorem.
2. It cannot be obtuse angle as it does not satisfy the rule:
- the length of one side of a triangle must be greater than the differnce and less than the sum of the lengths of the other two sides.
4-3 =1 <6 4+3=7>6
Answer:
Dependent.
Step-by-step explanation:
You did not return the name into the hat, so there is technically a "higher" probability to obtain the next name.
For example, if there were 5 names inside the hat, each one technically would have a 20% chance of obtaining a name.
If you did not return the name into the hat, there would only be 4 names left, which means that it would increase to a 25% chance of obtaining a name that is still inside the name.
The chance of obtaining the other name's chance, therefore, is dependent on the first one being taken out.
