Please teach me in detail! 5. Solve the following by hand. You may use any method...
Use the method for solving homogeneous equations to solve the following differential equation. 9(x2 + y2) dx + 4xy dy = 0 Ignoring lost solutions, if any, an implicit solution in the form F(x,y)=C is = C, where is an arbitrary constant (Type an expression using x and y as the variables.)
13.) Use the method for solving homogeneous equations to solve the following differential equation (x2 + y2) dx + Swy dy=0 C, where C is an arbitrary constant Ignoring lost solutions, if any, an implicit solution in the form Fixy)-Cis (Type an expression using x and y as the variables.)
Use the method for solving homogeneous equations to solve the following differential equation 5(x2 + y2) dx + 2xy dy = 0 Ignoring lost solutions, if any, an implicit solution in the form FXy) = C is W = C where (Type an expression using X andy as the variables.) is an arbitrary constant
Please Answer 5-9 ALL in detail In problems 5 and 6 solve the given differential equation. 5. y (In x - In y) dx = (x In x - x In y - y) dy Ans: 6. (2x + y + 1) y' = 1 Ans: 7. Solve the initial-value problem + 2(t+1)y? = 0, y(0) = %. Ans: dy_y2 - xy(t) = -2. 8. Find an implicit solution of the initial-value problem 9. Ans: Use Euler's method sith step...
number 5 please 1-14 ODES. INTEGRATING FACTORS Test for exactness. If exact, solve. If not, use an integrating factor as given or obtained by inspection or by the theorems in the text. Also, if an initial condition is given, find the corresponding particular solution. 1. 2xy dx + x2 dy = 0 2. xºdx + y°dy = 0 3. sin x cos y dx + cos x sin y dy = 0 4. €3°(dr + 3r de) = 0 5....
For each of the following, solve the differential equation. Unless otherwise noted, you may leave it as an implicit solution. (1) + y cos(2t) = 0. (2) = V1 -21 (3) * = (4) (a) As a bonus problem, for (4), what geometric objects do the graphs of the solutions form?
PLEASE PLEASE,ONLY ANSWER THIS QUESTION IF YOU COULD GIVE ME THE MATLAB CODE.THANK YOU. dyi y = 2.5. dy Consider the following Ordinary Differential Equation (ODE) for function yı(a) on interval [0, 1] dyi dayı dyi d3 + (-3.3) * + 2.9 * + (-0.6) * yı(20) = 0.0 dar2 da with the following initial conditions at point x = 0: dayı = 8.86 = 18.248 dar dra Introducting notations dyi dy2 y2 = da da d2 convert the ODE...
q5and 6 please. as much detail as possible please i need to learn how go solve these (3) Evaluate the double integral where D is the region in the lower half-plane lying between the circles 2+y2-1 and (4) Evaluate the iterated integral sinda dy. (5) In the ry-plane, let D be the region bounded by the graphs of z ty 3, 0, and 0. Find f(x,y) such that z f(x,y) defines a plane in R3 and y (6) Consider the...
Thank you! Use the method for solving Bernoulli equations to solve the following differential equation. dy 3 dx + yºx + 5y = 0 = C, where C is an arbitrary constant. Ignoring lost solutions, if any, an implicit solution in the form F(x,y) = C is (Type an expression using x and y as the variables.)
#14 please i lution of the great the equation. PROBLEMS: Section 3.8 1/2 use the method of variation of parameters Brahim a parimar solution of the given nonhomogeneous equa- The found the general solution of the equation bytes 27+ y = 1 1 - = - y = 5e 14. xy + xy' - 4y = x(x + x) 1,(x) = x2 Y 2(x) = x-2 15. (1 - x)y" + xy' - y = 2(x - 1)2- y(x) =...