Answer:
Option: B is the correct answer.
B. The number of dollars predicted to be collected on the 6th day using an exponential model is greater than that predicted using a linear model .
Step-by-step explanation:
Since, on the basis of the given information we can define a exponential function that determine the number of dollars in 't' days by N(t) as:
[tex]N(t)=2^t[/tex]
Similarly a linear function can be defined as:
[tex]N(t)=3t-1[/tex]
( The equation of a linear function is given by solving the equation with the help of slope-intercept form as:
y=mx+c
we are given two points (1,2) and (3,8) with the help of which we can find the value of m and c and hence get the equation of line
since using (1,2)
we get 2=m+c
similarly using (3,8) we get:
8=3m+c
and solve the two equations using method of elimination ).
Now we have to find which function gives the higher value at t=6.
when t=6
Exponential function:
[tex]N(6)=2^6=64[/tex]
and when t=6
Linear function gives:
[tex]N(6)=3\times 6-1\\\\N(6)=18-1\\\\N(6)=17[/tex]
Hence, The number of dollars predicted to be collected on the 6th day using an exponential model is greater than that predicted using a linear model .
( since 64>17 )
