Respuesta :
Answer:
The average rate of change of the cars value during the first four years Kenzie owns it is $659.566 per year
Step-by-step explanation:
Here we have
[tex]m(t) =23,000^{(0.97)t}[/tex]
Therefore, in the first year we have
m(1) = $22310
Δm(t₁) = $23000 -$22310 = $690
m(2 ) = $21640
Δm(t) = $23000 -$21640= $1359.3
Δm(t₂ - t₁) = $1359.3 - $690 = $669.3
m(3) = $20991.479
Δm(t₃) = $23000 -$20991.479= $2008.521
Δm(t₃ - t₂) = $2008.521 - $ $1359.3 = $649.221
m(4) = $20361.73
Δm(t) = $23000 -$20361.73= $2368.265
Δm(t₄ - t₃) = $2368.265 - $ $2008.521= $629.744
Therefore the average rate of change of the cars value during the first four years Kenzie owns it is ($690 + $669.3 + $649.221 + $629.744)/4 = $659.566 per year.
Also by differentiating the function, we have;
[tex]\frac{\mathrm{d} m(t) }{\mathrm{d} t} = \frac{\mathrm{d} \left (23,000^{(0.97)t} \right )}{\mathrm{d} x} = 23,000\cdot e^{t\cdot ln(0.97)}\cdot ln(0.97)[/tex]
