The population of Pacifica was 1,000,000 people in 2010. The growth in population is given by...

Please solve these 2 questions step by step trying to learn for an exam. 1.Find an...

Please solve these 2 questions step by step trying to learn for an exam. 1.Find an explicit solution of the following differential equation. y' =xy-xy^2, y(0) =3 2. Suppose a population satisfies, dP/dt = 0.02P-0.00005P^2; P(0) =40 =P0, Where t is measured in Years. a) what is the carrying capacity M? b)for what values of P is the population increasing the fastest? c)Given the solution of the differential equation. P(t) =M/1+Ae^-0.02t, where M is the carrying capacity and A =...

The rate of growth of the population of a city is predicted to be dp/dt =...

The rate of growth of the population of a city is predicted to be dp/dt = 1000t^1.08 where P is the population at time T and T is measured in years from the present.   a) What is the predicted rate of growth 5 years from the present? b) what is the population 5 years from the present? No current population was given

3.) Starting with the expression for logistic population growth, determine the expression for the time t1...

3.) Starting with the expression for logistic population growth, determine the expression for the time t1 that it takes for population to grow from No to N1. Express your answer in terms of four variables only: r, K, No, and N1. 4.)The rate of growth of a population is given by dN/dt = 100t. If the total population at t = 10 years is 6000 people, find the population at t = 20 years. This distribution is NOT exponential or...

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...

The population P (in thousands) of a certain city from 2000 through 2014 can be modeled...

The population P (in thousands) of a certain city from 2000 through 2014 can be modeled by P = 160.3e ^kt, where t represents the year, with t = 0 corresponding to 2000. In 2007, the population of the city was about 164,075. (a) Find the value of k. (Round your answer to four decimal places.) K=___________ Is the population increasing or decreasing? Explain. (b) Use the model to predict the populations of the city (in thousands) in 2020 and...

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?

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. 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. a = ? b = ?

The rate of growth dP/dt of a population of bacteria is proportional to the square root...

The rate of growth dP/dt of a population of bacteria is proportional to the square root of t with a constant coefficient of 7, where P is the population size and t is the time in days (0≤t≤10). The initial size of the population is 600. Approximate the population after 7 days. Round the answer to the nearest integer.

The population P(t) of bacteria grows according to the logistics equation dP/dt=P(12−P/4000), where t is in...

The population P(t) of bacteria grows according to the logistics equation dP/dt=P(12−P/4000), where t is in hours. It is known that P(0)=700. (1) What is the carrying capacity of the model? (2) What is the size of the bacteria population when it is having is fastest growth?

The population of a region is growing exponentially. There were 35 million people in 1980 (when...

The population of a region is growing exponentially. There were 35 million people in 1980 (when t=0) and 70 million people in 1990. Find an exponential model for the population (in millions of people) at any time t, in years after 1980. P(t)= What population do you predict for the year 2000? Predicted population in the year 2000 = million people. What is the doubling time? Doubling time = years.