Answer:
Given,
The initial population ( on 2010 ) = 40,000,
Let r be the rate of increasing population per year,
Thus, the function that shows the population after t years,
[tex]P(x)=40000(1+r)^t[/tex]
And, the population after 5 years ( on 2015 ) is,
[tex]P(5)=40000(1+r)^{5}[/tex]
According to the question,
P(5) = 50,000,
[tex]\implies 40000(1+r)^5=50000[/tex]
[tex](1+r)^5=\frac{50000}{40000}=1.25[/tex]
[tex]r + 1= 1.04563955259[/tex]
[tex]\implies r = 0.04653955259\approx 0.04654[/tex]
So, the population is increasing the with rate of 0.04654,
And, the population after t years would be,
[tex]P(t)=40000(1+0.04654)^t[/tex]
[tex]\implies 40000(1.04654)^t[/tex]
Since, the exponential function is,
[tex]f(x) = ab^x[/tex]
Hence, by comparing,
a = 40000,
b = 1.04654
Answer:
maryland. (c)
wyoming. (b)
reduced burning of fossil fuels. (b)
Step-by-step explanation:
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