Using it's concept, it is found that the functions that have a greater y-intercept than g(x) = |x + 3| + 4 are given as follows:
<h3>What is the y-intercept of a function?</h3>
It is the <u>value of the function when the input is of zero</u>, that is, f(0).
For g(x) = |x + 3| + 4, we have that g(0) = 7. As for the other functions, we have that:
- f(x) = -2(x - 8)² -> f(0) = -128.
- h(x) = -5|x| + 10 -> f(0) = 10 -> Greater than g(x).
- j(x) = -4(x + 2)² + 8 = f(0) = -8.
- k(x) = 0.25(x - 4)² + 4 -> f(0) = 8 -> Greater than g(x).
- m(x) = 0.25|x - 8| + 6 -> f(0) = 8 -> Greater than g(x).
More can be learned about the y-intercept of a function at brainly.com/question/24737967
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I’m honestly not sure but it could be right
The answer I got is &6.60
Answer:
30
Step-by-step explanation:
s_{n}=\frac{a+l}{2}=n
first term=a
last term=l
number of terms=n
1485=\frac{6+93}{2}n
99 n=1485×2=2970
n=2970/99=270/9=30
number of terms=30
-24+m=-47
First, you add 24 to -47. Then you find that m=-23. To check your work, plug -23 in the equation for m, and solve.
the spread of the middle data is called the interquartile range and the left and right twenty five percent data are both called the twenty five percent quartiles
HOPE THIS HELPS