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Differential Equations
Show the integration without the use of tables or technology; otherwise, we will share...
non-homo 2nd order linear equations 1. Find the general solution for each of the following differential...
non-homo 2nd order linear equations
1. Find the general solution for each of the following differential equations (10 points each): (a) (b) (e) y" – 2y! - 3y = 3e2x y" — y' – 2y = -2.3 + 4.2? y" + y’ – 67 = 1234 + 12e-2x y" – 2y' – 3y = 3.ce-1 y" + 2y' + y = 2e- (Hint: you'll use Rule 7. at least once) (e 2. Find the solution to the following differential equation...
Undetermined Coefficients: Find the general solution for the differential equations. Find the general solution for the...
Undetermined Coefficients: Find the general solution for the
differential equations.
Find the general solution for the following differential equations. (1) y' - y" – 4y' + 4y = 5 - e* + e-* (2) y" + 2y' + y = x²e- (3) y" - 4y' + 8y = x3; y(0) = 2, y'(0) = 4
1. Solve the following Differential Equations. 2. Use the variation of parameters method to find the...
1. Solve the following Differential Equations.
2. Use the variation of parameters method to find the general
solution to the given differential equation.
3.
a) y" - y’ – 2y = 5e2x b) y" +16 y = 4 cos x c) y" – 4y'+3y=9x² +4, y(0) =6, y'(0)=8 y" + y = tan?(x) Determine the general solution to the system x' = Ax for the given matrix A. -1 2 А 2 2
DIFFERENTIAL EQUATIONS Solutions of Systems of Linear Differential Equations (L01.5 - 15 points) Show that the...
DIFFERENTIAL EQUATIONS
Solutions of Systems of Linear Differential Equations
(L01.5 - 15 points) Show that the general solution of the nonhomogeneous linear system is x=(1 71}x+ []}<+[4.]e + 3' X=al_2-vzlevat +al-1 + vale-vēt + [1]{2+{2}]++ [4]
1. Find the general solution for each of the following differential equations (10 points each): y"...
1. Find the general solution for each of the following differential equations (10 points each): y" - 2y - 3y = 32 y" - y' - 2y = -2 + 4.2 y" + y' - 6y = 12e3+ + 12e-2x y" - 2y - 3y = 3.re* y" + 2y + y = 2e-* (Hint: you'll use Rule 7. at least once)
4. (24 points) Find the general solution to each of the following differential equations dy a)...
4. (24 points) Find the general solution to each of the following differential equations dy a) = e-(x - 2). Over what interval is this solution valid? dx b) y" - 2y + y = (Hint use the method of variation of parameters) 1 + x2 c) y" - 8y' + 177 = 0. Is this solution (i)undamped, (ii) critically damped, (iii) under-damped, or (iv) over-damped?
(24 points) Find the general solution to each of the following differential equations dy a) =...
(24 points) Find the general solution to each of the following differential equations dy a) = e)(x - 2). Over what interval is this solution valid? dx b) y" - 2y + y = (Hint use the method of variation of parameters) 1 + x2 c) y" - 8y' + 17y = 0. Is this solution (i) undamped, (ii) critically damped, (iii) under-damped, or (iv) over-damped?
(20 points) Use ONE of the following reference words for the given differential equations to indicate...
(20 points) Use ONE of the following reference words for the given differential equations to indicate the methods you would you use when asked to solve the given different equations. Use N/A only if you believe the other methods are not working. Do not solve the equations. 1. Reference words: Exact Linear first order (integrating factor method) Separable 2nd order constant coefficient homogeneous (characteristic equation) Simple integration Introducing new functions (to reduce the problem to a simpler problem) N/A to...
Please show solutions. Answer: 1. Find a general solution to the following differential equations: (a) y"...
Please show solutions.
Answer:
1. Find a general solution to the following differential equations: (a) y" + y = 0 (b) y" – 2y' + 264 = 0 (c) 4x²y" – 3y = 0 (d) y" + 4y = 9 sin(t). (e) y" – 6y' + 9y = 6e3x 1. (a) y = ci + c2e- (b) y = cle' cos(5t) + czet sin(5t) (c) y = cit-1/2 + c2t3/2 (d) y = ci cos(2t) + c2 sin(2t) + 3...
USING THE PARAMETER VARIATION METHOD, Find the general solution of the differential equations taking into account...
USING THE PARAMETER VARIATION METHOD,
Find the general solution of the differential equations taking
into account the initial conditions.
Note: only determine all the matrices W in relation to the
particular answer Yp without calculating them
yiv + 2y" + y = 3t + 4 ; y(0) = y'(0) = 0 et y"(0) = y''(0) = 1
non-homo 2nd order linear equations
1. Find the general solution for each of the following differential equations (10 points each): (a) (b) (e) y" – 2y! - 3y = 3e2x y" — y' – 2y = -2.3 + 4.2? y" + y’ – 67 = 1234 + 12e-2x y" – 2y' – 3y = 3.ce-1 y" + 2y' + y = 2e- (Hint: you'll use Rule 7. at least once) (e 2. Find the solution to the following differential equation...
Undetermined Coefficients: Find the general solution for the
differential equations.
Find the general solution for the following differential equations. (1) y' - y" – 4y' + 4y = 5 - e* + e-* (2) y" + 2y' + y = x²e- (3) y" - 4y' + 8y = x3; y(0) = 2, y'(0) = 4
1. Solve the following Differential Equations.
2. Use the variation of parameters method to find the general
solution to the given differential equation.
3.
a) y" - y’ – 2y = 5e2x b) y" +16 y = 4 cos x c) y" – 4y'+3y=9x² +4, y(0) =6, y'(0)=8 y" + y = tan?(x) Determine the general solution to the system x' = Ax for the given matrix A. -1 2 А 2 2
DIFFERENTIAL EQUATIONS
Solutions of Systems of Linear Differential Equations
(L01.5 - 15 points) Show that the general solution of the nonhomogeneous linear system is x=(1 71}x+ []}<+[4.]e + 3' X=al_2-vzlevat +al-1 + vale-vēt + [1]{2+{2}]++ [4]
1. Find the general solution for each of the following differential equations (10 points each): y" - 2y - 3y = 32 y" - y' - 2y = -2 + 4.2 y" + y' - 6y = 12e3+ + 12e-2x y" - 2y - 3y = 3.re* y" + 2y + y = 2e-* (Hint: you'll use Rule 7. at least once)
4. (24 points) Find the general solution to each of the following differential equations dy a) = e-(x - 2). Over what interval is this solution valid? dx b) y" - 2y + y = (Hint use the method of variation of parameters) 1 + x2 c) y" - 8y' + 177 = 0. Is this solution (i)undamped, (ii) critically damped, (iii) under-damped, or (iv) over-damped?
(24 points) Find the general solution to each of the following differential equations dy a) = e)(x - 2). Over what interval is this solution valid? dx b) y" - 2y + y = (Hint use the method of variation of parameters) 1 + x2 c) y" - 8y' + 17y = 0. Is this solution (i) undamped, (ii) critically damped, (iii) under-damped, or (iv) over-damped?
(20 points) Use ONE of the following reference words for the given differential equations to indicate the methods you would you use when asked to solve the given different equations. Use N/A only if you believe the other methods are not working. Do not solve the equations. 1. Reference words: Exact Linear first order (integrating factor method) Separable 2nd order constant coefficient homogeneous (characteristic equation) Simple integration Introducing new functions (to reduce the problem to a simpler problem) N/A to...
Please show solutions.
Answer:
1. Find a general solution to the following differential equations: (a) y" + y = 0 (b) y" – 2y' + 264 = 0 (c) 4x²y" – 3y = 0 (d) y" + 4y = 9 sin(t). (e) y" – 6y' + 9y = 6e3x 1. (a) y = ci + c2e- (b) y = cle' cos(5t) + czet sin(5t) (c) y = cit-1/2 + c2t3/2 (d) y = ci cos(2t) + c2 sin(2t) + 3...
USING THE PARAMETER VARIATION METHOD,
Find the general solution of the differential equations taking
into account the initial conditions.
Note: only determine all the matrices W in relation to the
particular answer Yp without calculating them
yiv + 2y" + y = 3t + 4 ; y(0) = y'(0) = 0 et y"(0) = y''(0) = 1
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