What is the difference between an integrable differential equation and an autonomous first-order DE? What, for...

Consider the autonomous first-order differential equation dy/dx=4y-(y^3). 1. Classify each critical point as asymptotically stable, unstable,...

Consider the autonomous first-order differential equation dy/dx=4y-(y^3). 1. Classify each critical point as asymptotically stable, unstable, or semi-stable. (DO NOT draw the phase portrait and DO NOT sketch the solution curves) 2. Solve the Bernoulli differential equation dy/dx=4y-(y^3).

what is the difference between a regular equation and a differential equation? What are the types...

what is the difference between a regular equation and a differential equation? What are the types of differential equations?

suppose that the characteristic equation of third order differential has roots +-2i and 3 i) What...

suppose that the characteristic equation of third order differential has roots +-2i and 3 i) What is the characteristic equation? ii) find the corresponding Differential equation? iii) Find the general solution?

How are direction fields generated to approximate solutions to a differential equation? What type of DE's...

How are direction fields generated to approximate solutions to a differential equation? What type of DE's can be solved this way? Give an example, complete with hand-sketched direction field.

On page 51 we showed that a one-parameter family of solutions of the first-order differential equation...

On page 51 we showed that a one-parameter family of solutions of the first-order differential equation dy/dx=xy^(1/2) is y=((1/4)x^4+c)^2 for c>=0. Each solution in this family is defined on (-inf,inf). The last statement is not true if we choose c to be negative. For c=-1, explain why y=((1/4)x^4+c)^2 is not a solution of the DE on the interval (-inf,inf). Find an interval of definition I on which y=((1/4)x^4+c)^2 is a solution of the DE.

1. The forced response for a first-order differential equation with a constant forcing function is also...

1. The forced response for a first-order differential equation with a constant forcing function is also referred to as the steady-state solution. True or false 2. If the roots of the characteristic equation for a second-order circuit are real and equal, the network response is: a. overdamped b. underdamped c. critically damped 3. If the response of a second-order circuit is oscillatory, the circuit is a. underdamped b. critically damped c. overdamped 4. The forced response for a second-order circuit...

The principle of differential punishment—define it and give an example. What is the difference between differential...

The principle of differential punishment—define it and give an example. What is the difference between differential punishment and plain punishment?

What is the difference between zero, first, and second order chemical reactions in terms of the...

What is the difference between zero, first, and second order chemical reactions in terms of the form of their rate equation and how can I graph concentration-time data showing which order they are?

What is the difference between qualitative and quantitative techniques in differential equations. Give an example of...

What is the difference between qualitative and quantitative techniques in differential equations. Give an example of both.

Solve this SHM, the m=2 m/s and k=8. Write a 2nd order differential equation and give...

Solve this SHM, the m=2 m/s and k=8. Write a 2nd order differential equation and give a general solution as sum of sin and cosine. then give a specific solution as x intial is 2 and v intial is -4. What time does it mass through equilibrium?