6. A population of fish is living in an environment with limited resources. This environment canonly support the population if it contains no more than M fish (otherwise some fish wouldstarve due to an inadequate supply of food, etc.). There is considerable evidence to supportthe theory that, for some fish species, there is a minimum population m such that the specieswill become extinct if the size of the population falls below m. Such a population can bemodelled using a modified logistic equation:xP (1 - #)( - -).dPdtM (a) Use the differential equation to show that any solution is increasing if m < P < M anddecreasing if 0 < P < m.(b) For the case where k = 1, M = 100, 000 and m = 10,000, draw a direction field and useit to sketch several solutions for various initial populations. What are the equilibriumsolutions?(c) One can show thatM(Po – m)eP(t)-m(Po – M)- (Po – M)k(M-m)(Po – m)eis a solution with initial population P(0) = Po. Use this to show that, if P(0) < m, thenthere is a time t at which P(t) = 0 (and so the population will be extinct).

Answered: Image /qna-images/answer/086e95e1-6f8b-495d-ab37-60e8a00d049b.jpg

Answered: (a) Use the differential equation to…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

See similar textbooks

Similar questions

The dollar valuation V(t) of Batcoin as a function of time t, measured in days, is governed by the differential equation: dV dt -0.04V² + 80V (a) For what initial valuations would Batcoin remain priced at the same level? (b) Sketch a direction field describing this situation. You may assume that the Batcoin valuation never dips below zero. (c) Would Batcoin ever become essentially worthless? Justify your answer. (d) If you purchased a single Batcoin at its market price of $2500 today, approximately how much would your investment be worth six months from now? Use graphical analysis and explain your answer. =
A function y(t) satisfies the differential equation dy = -y - 3y +4y². dt (a) What are the constant solutions of this equation? Separate your answers by commas. (b) For what values of y is y increasing? < y <
3. Find all equilibrium solutions to the differential equation y= (y+1)(y- 1)(y– 2)² and identify each equilibrium as stable, semi-stable, or unstable.
2 Consider the differential equation (t) = x(t) – 4. a.) Find the backward solution of the equation, given an initial value x(0) = 0.5 . b.) ( Is the equation stable or unstable? Why? c.) Sketch the phase diagram and a time path for the equation.
Example 1: A particle is moves along a coordinate axis in the positive direction to the right. Its position at time t' is given by s(t) = t³ – 4t + 2. Find v(1) and a 1), use these to answer the following questions: (a). Is the particle moving from left to right or from right to left at t =1? (b). Is the particle speeding up or slowing down at time t 1? Solution:
Please solve the last 3 parts
(a) Write down the equation of motion for the point particle of mass m moving in the Kepler potential U(x)=-A/x+B/x² where x is the particle displacement in m. (d) Mimimise the number of independent parameters in the modified equation of motion with dissipation by introducing dimensionless varibles and r for x and 1. (e) Present the equation derived in the form of an energy balance equation and find the expressions for the effective kinetic and potential energies (7 and V), and dissipative function F. (f) Plot the potential function for both signs of the free parameter, positive (B= 0.5 and = 1) and negative (B=-0.5 and B=-1). Find extrema of the potential function and their positions on the -axis. In which cases are the extrema stable and unstable?

Recommended textbooks for you

Advanced Engineering Mathematics

Advanced Math

ISBN:

9780470458365

Author:

Erwin Kreyszig

Publisher:

Wiley, John & Sons, Incorporated

Numerical Methods for Engineers

Advanced Math

ISBN:

9780073397924

Author:

Steven C. Chapra Dr., Raymond P. Canale

Publisher:

McGraw-Hill Education

Introductory Mathematics for Engineering Applicat…

Advanced Math

ISBN:

9781118141809

Author:

Nathan Klingbeil

Publisher:

WILEY

Advanced Engineering Mathematics

Advanced Math

ISBN:

9780470458365

Author:

Erwin Kreyszig

Publisher:

Wiley, John & Sons, Incorporated

Numerical Methods for Engineers

Advanced Math

ISBN:

9780073397924

Author:

Steven C. Chapra Dr., Raymond P. Canale

Publisher:

McGraw-Hill Education

Introductory Mathematics for Engineering Applicat…

Advanced Math

ISBN:

9781118141809

Author:

Nathan Klingbeil

Publisher:

WILEY

Mathematics For Machine Technology

Advanced Math

ISBN:

9781337798310

Author:

Peterson, John.

Publisher:

Cengage Learning,

Basic Technical Mathematics

Advanced Math

ISBN:

9780134437705

Author:

Washington

Publisher:

PEARSON

Topology

Advanced Math

ISBN:

9780134689517

Author:

Munkres, James R.

Publisher:

Pearson,

SEE MORE TEXTBOOKS