Question 2 3 pts The general solution of the first order non-homogeneous linear differential dy equation...
The general solution of the first order non-homogeneous linear differential dy equation with variable coefficients (x + 1) + xy=e, I > -1 equals dx Oy=e-* [C(x2 - 1) + 1], where is an arbitrary constant. None of them Oy=e* [C(x2 – 1) +1], where is an arbitrary constant. yre *(C(x + 1) - 1], where is an arbitrary constant. Oy=e" (C(x - 1) + 1], where is an arbitrary constant.
The general solution of the first order non homogeneous linear differential equation with variable dy coefficients (x+1)+zy=e" => -1 equals None of them Oy =é (C(x - 1) + 1), where is an arbitrary constant. Oy=é (C(ZP – 1) + 1). where is an arbitrary constant. Oy=e*10*? - 1) + 1]. where is an arbitrary constart Oy=-*|C(2+1) – 1), where is an arbitrary constant
Question 1 3 pts The solution of the Initial-Value Problem (IVP) S (x + y)dx – «dy = 0 is given by 1 y(1) = 0 Oy=det-1 - 1 Oy= < ln(x + y) Oy= (x + y) In x Oy= < In x None of them Question 2 3 pts The general solution of the first order non-homogeneous linear differential equation with variable coefficients dy (x + 1) + xy = e-">-1 equals dx 2 Oy=e* (C(x - 1)...
The general solution of the first order non-homogeneous linear differential equation with variable coefficients \((x+1) \frac{d y}{d x}+x y=e^{-x}, \quad x>-1 \quad\) equalsQ \(y=e^{-x}\left[C\left(x^{2}-1\right)+1\right]\), where \(C\) is an arbitrary constant.None of themQ \(y=e^{x}\left[C\left(x^{2}-1\right)+1\right]\), where \(C\) is an arbitrary constant.\(y=e^{-x}[C(x+1)-1]\), where \(C\) is an arbitrary constant.\(y=e^{x}[C(x-1)+1]\), where \(C\) is an arbitrary constant.
Зрт Question 1 f (x + y)da - ady=0 The solution of the Initial-Value Problem (IVP) 1 y(1) = 0 is given by Oy= (x + y) In a Oy = x In a Oy= « ln(x + y) 3 = teº-1 None of them n Question 2 3 pts The general solution of the first order non-homogeneous linear differential equation with variable dy coefficients (a +1) + xy = e > -1 equals da 3 Oy= e-* [C(x2 -...
A.9. First-order linear non-homogeneous ODEs having one dependent variable are of the form dy + P(x)y = f(x). Beginning with yp = uyż, where yı = e-SP(x)dx and is thus a solution to Y + P(x)y = 0, and given that the general solution y = cyı + Yp, use variation of parameters to derive the formula for the general solution to first-order linear non-homogeneous ODES: dx y = e-SP(x)dx (S eS P(x)dx f(x)dx + c). You may use the...
for differential equations 1. Identify each of the following differential equations as either Separable, Homogeneous, Linear Bernoulli, or Exact and solve the equation using the method of the type you have identified. Many can be classified in multiple ways, it is not necessary to list all possibilities. (3xy2 +2ycos x)+y'-y sin x-x =0 Туре: A. dx General Solution: B. (4xy+xy)2x+ xy2 dx Туре: General Solution: Туре: C. y'y'y+1 General Solution: (3x'y+e')-(2y-x-xe)dy Туре: D. dx General Solution: Туре: dy E. =y(xy-1)...
Consider the following nonhomogeneous linear differential equation ay 6) + by(s) + cy!4) + dy'"' + ky'' + my' + ny=3x²3x - 7cos +1 where coefficients a, b, c, d, k, m, n are constant. Assume that the general solution of the associated homogeneous linear differential equation is YAEC,+Ce**+ c xe** + c.xe3* + ecos What is the correct form of the particular solution y of given nonhomogeneous linear differential equation? Yanitiniz: o Yo=Ax*e** + Ex + F **+Cxcos() +oxsin()+Ex+F...
Solve the homogeneous differential equation -y d) dy 0. (Note: Some algebraic manipulation goes into putting your answer into the form below.) (1 point) Use substitution to find the general solution of the differential equation (2-y) dx + x dy = 0. (Use C to denote the arbitrary constant and Inl input if using In.) help (formulas)
2 d²v Consider the non-homogeneous linear equation X 2 dy + 3x4 dx +y=e* dx? A particular solution to this equation can be obtained only by the method of undetermined coefficients. only by the method of variation of parameters. No method available. by both, he method of undetermined coefficients, and method of variation of parameters.