Answer:
g(t) = 10000(0.938)^t
Step-by-step explanation:
Given data:
car worth is $10,000 in 2012
car worth is $8000 in 2014
let linear function is given as
P(t) = at + b
which denote the value of car in year t
take t =0 for year 2012
at t =0, 10,000 = 0 + b
we get b = 10,000
take t =2 for year 2014
at t =2, P(2) = 2a + b
8800 = 2a + 10,000
a = - 600
Thus the price of car at year t after 2012 is given as p(t) = -600t + 10000
let the exponential function 
where t denote t = 0 at 2012
putting t = 0 P(0) = 10,000 we get 10,000 = ab^0
a = 10,000
putting t = 2 p = 8800
b = 0.938
g(t) = 10000(0.938)^t
Answer:
The first one out of the four awnsers where 2 3 and 4 make 180 is correct!
Step-by-step explanation:
hope this helps:)
Well, what I would do is divide 107,982 by 3, and that would get me 1/3 of it, which is 35,994. Then I would multiply 35,994 by 2 so I'd have 2/3 of 107982. The answer would be 71,988.
But my way may be a bit complicated. All you have to do is find two thirds of 107,982.
The answer is 71,988.
Let
and
. Then the cylinder is given when we take
.
The cylinder's equation is independent of
, which means the intersection is completely determined by the value of
in the plane equation. So the intersection can be described by the vector function
.
The length of the intersection curve
is given by the line integral
