Solution Found!

Population Growth In Exercise 1, the growth in world

Chapter 4, Problem 44A

(choose chapter or problem)

Get Unlimited Answers
QUESTION:

Population Growth In Exercise 1, the growth in world population (in millions) was approximated by the exponential function A(t) = 3100e0.0166t,where t is the number of years since 1960. Find the instantaneous rate of change in the world population at the following times. Source: United Nations.a. 2010________________b. 2015Exercise 1Population Growth Since 1960, the growth in world population (in millions) closely fits the exponential function defined by A(t) = 3100e0.0166t,where t is the number of years since 1960. Source: United Nations.a. World population was about 3686 million in 1970. How closely does the function approximate this value?________________b. Use the function to approximate world population in 2000. (The actual 2000 population was about 6115 million.)________________c. Estimate world population in the year 2015.

Questions & Answers

QUESTION:

Population Growth In Exercise 1, the growth in world population (in millions) was approximated by the exponential function A(t) = 3100e0.0166t,where t is the number of years since 1960. Find the instantaneous rate of change in the world population at the following times. Source: United Nations.a. 2010________________b. 2015Exercise 1Population Growth Since 1960, the growth in world population (in millions) closely fits the exponential function defined by A(t) = 3100e0.0166t,where t is the number of years since 1960. Source: United Nations.a. World population was about 3686 million in 1970. How closely does the function approximate this value?________________b. Use the function to approximate world population in 2000. (The actual 2000 population was about 6115 million.)________________c. Estimate world population in the year 2015.

ANSWER:

Solution:Step 1 of 3In this problem, we have to find the instantaneous rate of change in the world population in the year and .The growth in the world population was approximated by the exponential function where is the number of years since .________________

Add to cart


Study Tools You Might Need

Not The Solution You Need? Search for Your Answer Here:

×

Login

Login or Sign up for access to all of our study tools and educational content!

Forgot password?
Register Now

×

Register

Sign up for access to all content on our site!

Or login if you already have an account

×

Reset password

If you have an active account we’ll send you an e-mail for password recovery

Or login if you have your password back