Respuesta :
Answer:
a) [tex]W(t) = 371(1.168)^{t}[/tex]
b) Wind capacity will pass 600 gigawatts during the year 2018
Step-by-step explanation:
The world wind energy generating capacity can be modeled by the following function
[tex]W(t) = W(0)(1+r)^{t}[/tex]
In which W(t) is the wind energy generating capacity in t years after 2014, W(0) is the capacity in 2014 and r is the growth rate, as a decimal.
371 gigawatts by the end of 2014 and has been increasing at a continuous rate of approximately 16.8%.
This means that
[tex]W(0) = 371, r = 0.168[/tex]
(a) Give a formula for W , in gigawatts, as a function of time, t , in years since the end of 2014 . W= gigawatts
[tex]W(t) = W(0)(1+r)^{t}[/tex]
[tex]W(t) = 371(1+0.168)^{t}[/tex]
[tex]W(t) = 371(1.168)^{t}[/tex]
(b) When is wind capacity predicted to pass 600 gigawatts? Wind capacity will pass 600 gigawatts during the year?
This is t years after the end of 2014, in which t found when W(t) = 600. So
[tex]W(t) = 371(1.168)^{t}[/tex]
[tex]600 = 371(1.168)^{t}[/tex]
[tex](1.168)^{t} = \frac{600}{371}[/tex]
[tex](1.168)^{t} = 1.61725[/tex]
We have that:
[tex]\log{a^{t}} = t\log{a}[/tex]
So we apply log to both sides of the equality
[tex]\log{(1.168)^{t}} = \log{1.61725}[/tex]
[tex]t\log{1.168} = 0.2088[/tex]
[tex]0.0674t = 0.2088[/tex]
[tex]t = \frac{0.2088}{0.0674}[/tex]
[tex]t = 3.1[/tex]
It will happen 3.1 years after the end of 2014, so during the year of 2018.
