A) Find the solution of the given initial value problem in explicit form. B) Determine the...

19. Solve the initial value problem and determine where the solution attains its maximum value. Please...

19. Solve the initial value problem and determine where the solution attains its maximum value. Please use good handwriting and show as many steps as possible. y'= 2cos(2x)/(3+2y), y(0)= -1

Consider the initial value problem dy dx = 1−2x 2y , y(0) = − √2 (a)...

Consider the initial value problem dy dx = 1−2x 2y , y(0) = − √2 (a) (6 points) Find the explicit solution to the initial value problem. (b) (3 points) Determine the interval in which the solution is defined.

Consider the following. (A computer algebra system is recommended.) y' = 3x/(y+x^2y') (a) Find the solution...

Consider the following. (A computer algebra system is recommended.) y' = 3x/(y+x^2y') (a) Find the solution of the given initial value problem in explicit form. y' = 3x/(y+x^2y') y(0)=-6 question asks for answer in terms of y(x)= (b) Plot the graph of the solution.

Determine (without solving the problem) an interval in which the solution of the given initial value...

Determine (without solving the problem) an interval in which the solution of the given initial value problem is certain to exist. (Enter your answer using interval notation.) t(t − 4)y' + y = 0, y(3) = 1

Solve the following initial value problems and determine the intervals in which the solution is defined:...

Solve the following initial value problems and determine the intervals in which the solution is defined: (a) y'= (1 − 2x)y^2 , with y(0) = − 1/6 (b) y' = 2x /(1 + 2y) , with y(2) = 0

Solve the following initial value problems and determine the intervals in which the solution is defined:...

Solve the following initial value problems and determine the intervals in which the solution is defined: (a) y 0 = (1 − 2x)y 2 , with y(0) = − 1 6 3 (b) y 0 = 2x 1 + 2y , with y(2) = 0

Solve the given initial value problem and determine at least approximately where the solution is valid....

Solve the given initial value problem and determine at least approximately where the solution is valid. (6x2+y−1)dx−(6y−x)dy=0, y(1)=0 y= ????? , the solution is valid as long as _____>=0 PLEASE help me and make sure it is in the format y=, and please explain how. Thank you.

a. Sketch the graph of the forcing function on an appropriate interval. b. Find the solution...

a. Sketch the graph of the forcing function on an appropriate interval. b. Find the solution of the given initial value problem. G c. Plot the graph of the solution. d. Explain how the graphs of the forcing function and the solution are related. 8. y(4) + 5y" + 4y = 1 − uπ (t); y(0) = 0, y '(0) = 0, y"(0) = 0, y'''(0) = 0

If g(t) is not everywhere zero, assume that the solution is of the form y= A(t)...

If g(t) is not everywhere zero, assume that the solution is of the form y= A(t) exp[- the integral of p(t)dt] 1. Where A is now a function of t. By substituting for y in the given differential equation, show that A(T) must satisfy the condition A'(t)= g(t)exp[ of the integral p(t)dt] The equation we will be using is y' + p(t)y= g(t) a) Find the final answer b) Find y Please use good handwriting and show as many steps...

Solve the initial value problem and determine the interval in which the solution is valid. Round...

Solve the initial value problem and determine the interval in which the solution is valid. Round your answer to three decimal places. y′=6x^2/(6y^2−11), y(1)=0 2y^3=2x^3+11y-2 The solution is valid for (fill in the blank)<x<(fill in the blank)