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

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 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

Suppose that the population develops according to the logistic equation dP/dt = 0.0102P - 0.00003P^2 where...

Suppose that the population develops according to the logistic equation dP/dt = 0.0102P - 0.00003P^2 where t is measured in days. What is the P value after 10 days where A = (M-P(0)) / P(0)) if the P(0) = 40? And P(0) = 20?

The rate of depreciation dV/dt of a machine is inversely proportional to the square of t+1,...

The rate of depreciation dV/dt of a machine is inversely proportional to the square of t+1, where V is the value of the machine t years after it was purchased. The initial value of the machine was $600,000, and its value decreased $200,000 in the first year. Estimate its value after 4 years. (Round your answer to the nearest whole number)

Suppose that the certain population obeys the logistics equation dP / dt = 0.025·P ·(1−P /...

Suppose that the certain population obeys the logistics equation dP / dt = 0.025·P ·(1−P / C) where C is the carrying capacity. If the initial population P0 = C/3, find the time t∗ at which the initial population has doubled, i.e., find time t∗ such that P(t∗) = 2P0 = 2C/3.

The population of bacteria in a culture grows at a rate proportional to the number of...

The population of bacteria in a culture grows at a rate proportional to the number of bacteria present at time t. After 2 hours from the beginning, it is observed that 500 bacteria are present. After 5 hours (from the beginning), 1500 bacteria are present. What is the initial number of bacteria P0 ? Hint: Use P(t) = P0ekt A - 240 at beggining B - 198 at beggining C - 541 at the beggining D - None of the...

The population of a bacteria in a culture grows at a rate proportional to the number...

The population of a bacteria in a culture grows at a rate proportional to the number of bacteria present at time t. After 3 hours it is observed that 400 bacteria are present. After 10 hours 2000 bacteria are present. What was the initial number of bacteria?

Differential Equations problem Given the equation - dP / dt = kP(M - P) - h...

Differential Equations problem Given the equation - dP / dt = kP(M - P) - h where k, h, and M are constant real numbers and P is population as a function of time t, with the initial condition P(0) = Po, find the solution for P(t). Show your work and enough steps so another student can understand the solution.

A bacterial population starts with 10,000 bacteria and grows at a rate proportional to its size....

A bacterial population starts with 10,000 bacteria and grows at a rate proportional to its size. After 2 hours there are 40,000 bacteria. a) Find the growth rate k. Round k to 3 decimal places. b) Find the number of bacteria after 5 hours. c) When will the population reach 1 million? d) What is the doubling time?

If the growth rate of bacteria in a culture medium is directly proportional to the difference...

If the growth rate of bacteria in a culture medium is directly proportional to the difference between the number of bacteria and a certain optimal number N¯, derive an expression for the number of bacteria n as a function of the time t given that the initial number of bacteria placed in the culture mediam is N0 and that the constant of proportionality is λ. Sketch, by inspection, the graph of n = n(t). How long does it take for...