Question 7 3 pts The solution of the Initial-Value Problem (IVP) x? yll – 2y =...
The solution of the Initial-Value Problem (IVP) z? yll – 2y = 4(x - 2) y(1) = 4 y (1) = -1 is . 4 y == + x2 - 2x + 1 2 None of them 0 1 O y = +22 - 2x + 4 2 O y = 1 +73 - 2x + 4 22 O v= +222+3
Question 7 3 pts The solution of the Initial-Value Problem (IVP) zy! - 2y = 4(x - 2) y(1) = 4 y (1) = -1 is 1 23 +22 -3 +3 +2.3 -2.0.4 1 Y L 22 - 2.0 + 4 2 None of them 0 4 2.- - 2 + 1 y = 2 Question 8 3 pts The power series solution of the Initial-Value Problem (IVP) (22 +1)yll + xy + 2xy = 0 y(0) = 2 is...
Question 8 3 pts The power series solution of the Initial-Value Problem (IVP) (x2 + 1)yll + xyl + 2xy = 0 y(0) = 2 is given by y (0) = 3 23 3x5 = 2 1 + + ...)+(2-* + + ...) + 3 20 None of them 7x3 21.25 y= 2 + 3x + +... 6 2 4 --- 3(-one -+...) +2(1-**+..) 7274 y= 2 + x + +...
The solution of the Initial-Value Problem (IVP) ( z* yn – 2y = 4(x - 2) y(1) = 4 Y (1) = -1 is None of them 1 yang +82-2+3 1 y = +23 - 2x + 4 Oy - 1/4 +2² - 22+4 4 y= + x2 – 22+1
3 pts Question 7 is The solution of the initial-Value Problem (IVPI 38 - 2y = 4(x - 2) v(I) = 4 W(1) = -1 4 +-9 + 1 O 1 +? - 24 0 417 +-+3 None of them o 1 +- 2c + 4 D Question 8 3 pts The power series solution of the initial Value Problem (IVP) (x+1) + xy + 2xy = 0 (0) = 2 (0) = 3 given by None of them 2125...
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)...
Question 1 3 pts The solution of the Initial-Value Problem (IVP) Į (x + y)dx – xdy = 0 1 y(1) = 0 is given by Oy= (x + y) In x None of them Oy= xel-1-1 O y = x ln(x + y) Oy= x In x
Solve listed initial value problems by using the Laplace Transform: 7. yll − yl − 2y = 3 e2t y(0) = −1, yl(0) = 5
The power series solution of the Initial-Value Problem (IVP) (x² + 1)yl + xy + 2xy = 0 y(0) = 2 is given by y(0) = 3 4 13 325 2 y=2(1 + + :). 2 + + 3 20 6 2 2125 y= 2 + 3x + +. 6 2 4 23 3.25 y = 32 =3(< + + -) +2 (1 + + :) 3 20 6 2 7.23 21.25 y= 2 + x + + + +......
The power series solution of the Initial-Value Problem (IVP) (x² + 1)yl + xy + 2xy = 0 y(0) = 2 is given by y(0) = 3 4 13 325 2 y=2(1 + + :). 2 + + 3 20 6 2 2125 y= 2 + 3x + +. 6 2 4 23 3.25 y = 32 =3(< + + -) +2 (1 + + :) 3 20 6 2 7.23 21.25 y= 2 + x + + + +......