Answer:
zxedrfcevrhybtjuyinkmu,l
Step-by-step explanation:
Answer: it b y’all
Step-by-step explanation: I took the test
Answer: option A. h < 0 and k < 0
Explanation:
1) You can obtain the graph of the function f(x)
![f(x)=a^{(x+h)}+k](https://tex.z-dn.net/?f=f%28x%29%3Da%5E%7B%28x%2Bh%29%7D%2Bk)
by comparing it with the parent function g(x)
![g(x)=a^x](https://tex.z-dn.net/?f=g%28x%29%3Da%5Ex)
2) As you see above, in this case it is verified that f(x) = g(x + h) + k.
3) And, from the graphing rules, you can use the fact that the graph of g(x+h) + k is the graph of g(x) shifted h units to the left and k units upward.
4) The graph of
cuts the y-axis on 1, this is the point (0,1), and its limit trends to 0⁺ when x trends to negative infinity.
5) Then, since, relative fo the parent function, the given graph shows a translation towards the right, h is negative, and, since it shows a translation downward, k is also negative.
In conclusion, the option A. h < 0 and k < 0, is the correct answer.
To find probability, you write a fraction with the numerator as the subject you are trying to find the probability of and with a denominator as the total number of subjects. The total number of subjects is 35 (or 15 + 20). The subject we are finding the probability of is men, which there are 15 of. Therefore the fraction would look like this:
15/35
which we can simplify to
3/7
The probability that the next person to enter the store will be a man is 3/7
-3/8 is between them and its terminating -0.375
-4/9 is between them and it repeating -0.44444444