If = Q, where Q is a function of y only, then the differential equation M...
Struggling with this
differential equations problem. Can't find the integrating factor
to continue
Solve the equation. (4x2 +2y+ 2y2dx + (x + 2xy)dy 0 An implicit solution in the form F(x,y) C is by multiplying by the integrating factor C, where C is an arbitrary constant, and (Type an expression using x and y as the variables.)
(1 point) In this problem we consider an equation in differential form M d.c + N dy=0. The equation (42 +3=”y 2) dx + (422.1, + 3)dy=0 y in differential form ñ dx + Ñ dy=0 is not exact. Indeed, we have Ñ , -Ñ , For this exercise we can find an integrating factor which is a function of y alone since Ñ , - Ñ , M is a function of y alone. Namely we have (y) =...
Find an integrating factor of the form x"y" and solve the equation. (2x y-9y)dx + (4y -9x)dy 0 by multiplying by the integrating factor. An implicit solution in the form F(x,y) C is C, where C is an arbitrary constant, and (Type an expression using x and y as the variables.)
Find an integrating factor of the form x"y" and solve the equation. (2x y-9y)dx + (4y -9x)dy 0 by multiplying by the integrating factor. An implicit solution in the...
3: Problem 4 Previous Problem List Next (1 point) Consider the implicit differential equation (15y +56xy)dx (36ry 64x2 )dy0 Show that xpy! is an integrating factor of this equation where p = and q = Now multiply the equation by the integrating factor xy that you have found and then integrate the resulting equation to get a solution in implicit form. where C is a constant of integration. Note that credit is only given if your third answer is obtained...
In this problem we consider an equation in differential form M dx + N dy = 0. The equation (2е' — (16х° уе* + 4e * sin(x))) dx + (2eY — 16х*y'е*)dy 3D 0 in differential form M dx + N dy = 0 is not exact. Indeed, we have For this exercise we can find an integrating factor which is a function of x alone since м.- N. N can be considered as a function of x alone. Namely...
The differemtial equation has an implicit general solution of the form F(x,y)= K, where K is an arbitary constant. In fact, because the differential equation is separable, we can deifine the solution curve implicitly by a function in the form: F(x,y)=G(x)+H(y) = K Find such a solution and then give the related functions requested. F(x,y)=G(x)+H(y)=???? dy 10.0 +7 9y? + 18y +3
Solve the equation (3x2y-dx + y - 4x®y-dy=0 An implicit solution in the form F(x,y)=Cis-C, where is an arbitrary constant, and (Type an expression using x and y as the variables ) by multiplying by the integrating factor
Chapter 2, Miscellaneous Problems, Question 05 Solve the given differential equation. All solutions should be found 2xy+y+4 x2+2ary d y arbitary constant. Do not enter an C, where C is a constant of integration Q
(1 point) General Solution of a First Order Linear Differential Equation A first order linear differential equation is one that can be put in the form dy + P(2)y= Q(1) dz where P and Q are continuous functions on a given interval. This form is called the standard form and is readily solved by multiplying both sides of the equation by an integrating factor, I(2) = el P(z) da In this problem, we want to find the general solution of...
Solve the equation (3x?y - 1)dx + (y - 4x?y-2)dy = 0 is an arbitrary constant, and V by multiplying by the integrating factor. An implicit solution in the form F(x,y) = C is = C, where (Type an expression using x and y as the variables.)