I have the equation dP/dt = k(M-P), and I don't know how to graph it in...

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.

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?

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 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?

A population P obeys the logistic model. It satisfies the equation dP/dt=(2/700)*P(7−P) for P>0 Assume that...

A population P obeys the logistic model. It satisfies the equation dP/dt=(2/700)*P(7−P) for P>0 Assume that P(0)=2. Find P(53)

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt =...

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt = r(1 − cos(ωt))P b. Solve the following differential equation: y'(x) + 4xy(x) = 2xe^(−x^ 2)

Assuming that P≥0, a population is modeled by the differential equation dP/dt = 1.4P(1- P/3400) 1....

Assuming that P≥0, a population is modeled by the differential equation dP/dt = 1.4P(1- P/3400) 1. For what values of P is the population increasing? Answer (in interval notation): 2. For what values of P is the population decreasing? Answer (in interval notation): 3. What are the equilibrium solutions? Answer (separate by commas): P =

Suppose a population P(t) satisfies dP/dt = 0.8P − 0.001P2    P(0) = 50 where t is measured...

Suppose a population P(t) satisfies dP/dt = 0.8P − 0.001P2    P(0) = 50 where t is measured in years. (a) What is the carrying capacity? ______ (b) What is P'(0)? P'(0) = ______ (c) When will the population reach 50% of the carrying capacity? (Round your answer to two decimal places.) _____yr Please show all work neatly, line by line, and justify steps so that I can learn. Thank you!

In chemistry I'm having problems solving equilibrium problems because I don't know how to rearrange the...

In chemistry I'm having problems solving equilibrium problems because I don't know how to rearrange the equation: how do you reaarange this: given: kp = 0.997 0.997= [3.00]^2 [O2] / [0.520]^2 you need to find [O2]. I don't need you to actually solve this, just provide me with examples of how to set this up so I can solve for [O2] or if you have: k=[0.1-x]^2 [0.5-2x]^3 / [2.3-3x]^2

how i can calculate RB angles if i dont know where is laying but i know...

how i can calculate RB angles if i dont know where is laying but i know the vertical and WCB angles however i do not have any graph