A town has a population of 1300 people at time t=0. In each of the following...

The population of a small town in central Florida has shown a linear decline in the...

The population of a small town in central Florida has shown a linear decline in the years 1994-2002. In 1994 the population was 32400 people. In 2002 it was 26880 people. A) Write a linear equation expressing the population of the town, P, as a function of t, the number of years since 1994. Answer:      B) If the town is still experiencing a linear decline, what will the population be in 2005?

The population, P, of a small town is modelled by the function P(t)=-2t3+55t2+15t+22000 , where t=0...

The population, P, of a small town is modelled by the function P(t)=-2t3+55t2+15t+22000 , where t=0 represents the beginning of this year. a) What is the initial population? b) What is the population at the end of 10 years? c) What is the average rate of change over 10 years? d) Estimate the instantaneous rate of change at the end of the10th year. e) What is the difference between your answer in b) and d)?

A town's population has been increasing. In 2001 the population was 38000 people. By 2011 the...

A town's population has been increasing. In 2001 the population was 38000 people. By 2011 the population had grown to 45000 . A write an equation that models this situation. Let p(t)=mt +b be the form . B) how many people will be living in the town by 2018? C) when will the population reach 100000 people at this rate? Round to the nearest year?

(1 point) Suppose P=f(t)P=f(t) is the population (in thousands) of town tt years after 1990, and...

(1 point) Suppose P=f(t)P=f(t) is the population (in thousands) of town tt years after 1990, and that f(4)=14f(4)=14 and f(12)=21f(12)=21, (a) Find a formula for f(t)f(t) assuming ff is exponential: P=f(t)=P=f(t)= (b) Find a formula for f−1(P)=f−1(P)= (c) Evaluate f(30)=f(30)=  (Round your answer to the nearest whole number.) (d) f−1(30)=f−1(30)=  (Round your answer to at least one decimal place.) Write out sentences to explain the practical meaning of your answers to parts (c) and (d). Consider the seven numbered statements in the...

Suppose an initial population of 33 million people increases at a continuous percent rate of 1.8%...

Suppose an initial population of 33 million people increases at a continuous percent rate of 1.8% per year since the beginning of 2000. Write a function ff that determines the population (in millions) in terms of the number of years tt since the beginning of 2000. f(t)=f(t)=    Determine the population (in millions) at the beginning of 2019. million people    What is the annual growth factor for the population?     If aa represents the population (in millions) at some point in...

World Poultry production was 94.7 million tons in the year 2010. In each of the following...

World Poultry production was 94.7 million tons in the year 2010. In each of the following cases, write a formula for the P, the world poultry production in millions of tons, t years after 2010 if, a) P decreases at a continuous rate of 5% per year. b) P increases at a rate of 5% per year c) P decreases by 5 million tons per year

Suppose the population of a town was 40,000 on January 1, 2010 and was 50,000 on...

Suppose the population of a town was 40,000 on January 1, 2010 and was 50,000 on January 1, 2015. Let P(t) be the population of the town in thousands of people t years after January 1, 2010. (a) Build an exponential model (in the form P(t) = a*bt ) that relates P(t) and t. Round the value of b to 5 significant figures. (b) Write the exponential model in the form P(t) = a*ekt. According to this model, what is...

Given the following data: Year t=0 in 1970 Population (thousands) 1970 0 225.3 1977 7 301.1...

Given the following data: Year t=0 in 1970 Population (thousands) 1970 0 225.3 1977 7 301.1 1989 1995 365.5 427.6 2000 495.6       Using t = 0 in 1970, write a linear model using the information from 1989 and 2000. (This is what we did earlier—use two points to calculate slope and y intercept)                                                                                                                         _________________________ B.        Write the linear regression equation. (Use your calculator)             _________________________ C.        Using the regression equation, predict when the population will...

Revisiting Exponential Growth At time t = 0 a population has size 1000. Suppose it grows...

Revisiting Exponential Growth At time t = 0 a population has size 1000. Suppose it grows exponentially, so that at time t (years) it has size S(t) = 1000a t for some a and all t > 0. a) Suppose that it doubles in size every 8 years. What is a? b) After how many years is the population 32 000? c) What is its instantaneous growth rate (individuals per year) at t = 10? d) What is its instantaneous...

The population of Toledo, Ohio, in the year 2000 was approximately 490,000. Assume the population is...

The population of Toledo, Ohio, in the year 2000 was approximately 490,000. Assume the population is increasing at a rate of 4.6 % per year. a. Write the exponential function that relates the total population, P (t), as a function of t, the number of years since 2000. P(t) = b. Use part a. to determine the rate at which the population is increasing in t years. Use exact expressions. P '(t) = people per year c. Use part b....