SOLUTION
From the table given, the linear model can be drafted from what we were given after using a graphing calculator, see the image below
The linear model can be derived using
[tex]y=ax+b[/tex]
Putting in the values we have for a and b into the equation, we have
[tex]y=3.98654x-18.8737[/tex]
But from our data, y represents the sales S and x represents time t.
Hence the linear model becomes
[tex]S(t)=3.98654t-18.8737[/tex]
Now, let's work on the quadratic model
From the calculator, we have
The quadratic model can be derived using
[tex]y=ax^2+bx+c[/tex]
Putting in the values of a, b and c into the equation above, we have
[tex]y=0.104084x^2+1.38443x-4.82228[/tex]
So, we know y represents S and x represents t
We have the quadratic model as
[tex]S(t)=0.104084t^2+1.38443t-4.82228[/tex]
The exponential model
From the graphing calculator, we have
So, from the image above, the exponential model can be derived using
[tex]y=a(b^x)[/tex]
From the image above, substituting the values into the equation, we have
[tex]y=5.61741(1.13292^x)[/tex]
Hence the exponential model becomes
[tex]S(t)=5.61741(1.13292^t)[/tex]
