Here are the question and answer of ordinary differential equation.
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Here are the question and answer of ordinary differential
equation.
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Bonus (Abel's formula) a) Show that if y1 and y2 are solutions to the differential equation...
Bonus (Abel's formula) a) Show that if y1 and y2 are solutions to the differential equation y"p(t)y(t)y 0 where p and q are continuous on an interval I, then the Wronskian of y and y2, W(y1,y2) (t) is given by - Sp(t)dt ce W(y1, y2)(t) where c depends on y and y2 (b) Use Abel's formula to find the Wronskian of two solutions to the differential equation ty"(t 1)y 3y 0 Do not solve the differential equation
3 Consider the ordinary differential equation: ty +3tyy 0. e) (2 points) Find the Wronskian Wly,...
3 Consider the ordinary differential equation: ty +3tyy 0. e) (2 points) Find the Wronskian Wly, yal(t). f) (2 points) Calculate e I podt and compare it to Wl vlt). What do you observe? Does y1(t) = t-1 and y2(t) = t-11nt represent a fundamental set of solutions? g) (2 points) Why? h) (2 points) Find the general solution of ty" +3ty'y 0 İ) (4 points) Solve the initial value problem t2y't3ty'+y = 0, t > 0 with y(1) =...
Consider the ordinary differential equation: t2y" + 3ty' +y = 0. 1 (3 points) e) Use...
Consider the ordinary differential equation: t2y" + 3ty' +y = 0. 1 (3 points) e) Use Abel's formula to find the Wronskian of any two solutions of this equation and W[y1,y2](t). What do you observe? compare it to = t1 and y2(t) = t-1 nt represent a fundamental set of solu f) (2 points) Determine if y1 (t) tions (2 points) Find the general solution of t2y" +3ty' +y = 0. g) Solve the initial value problem t2y" + 3ty/...
2. Consider the differential equation ty" – (t+1)y' +y = 2t2 t>0. (a) Check that yı...
2. Consider the differential equation ty" – (t+1)y' +y = 2t2 t>0. (a) Check that yı = et and y2 = t+1 are a fundamental set of solutions to the associated homogeneous equation. (b) Find a particular solution using variation of parameters.
Consider the differential equation, L[y] = y'' + p(t)y' + q(t)y = 0, (1) whose coefficients...
Consider the differential
equation, L[y] = y'' + p(t)y' + q(t)y = 0, (1) whose coefficients p
and q are continuous on some open interval I. Choose some point t0
in I. Let y1 be the solution of equation (1) that also satisfies
the initial conditions y(t0) = 1, y'(t0) = 0, and let y2 be the
solution of equation (1) that satisfies the initial conditions
y(t0) = 0, y'(t0) = 1. Then y1 and y2 form a fundamental set...
Show all of the details of your work Consider the ordinary differential equation (x2 + 1)...
Show all of the details of your work Consider the ordinary differential equation (x2 + 1) y' + 4xy = 4x a. Find the general. How many solutions does the equation have? b. Determine the that satisfies the initial condition y(0)=5
(3) Consider the differential equation ty' + 3ty + y = 0, 1 > 0. (a)...
(3) Consider the differential equation ty' + 3ty + y = 0, 1 > 0. (a) Check that y(t) = 1-1 is a solution to this equation. (b) Find another solution (t) such that yı(t) and (t) are linearly independent (that is, wit) and y(t) form a fundamental set of solutions for the differential equation).
Consider the differential equation y" – 7y + 12 y = 0. (a) Find r1, 72,...
Consider the differential equation y" – 7y + 12 y = 0. (a) Find r1, 72, roots of the characteristic polynomial of the equation above. 11,2 M (b) Find a set of real-valued fundamental solutions to the differential equation above. yı(t) M y2(t) M (C) Find the solution y of the the differential equation above that satisfies the initial conditions y(0) = -4, y'(0) = 1. g(t) = M Consider the differential equation y" – 64 +9y=0. (a) Find r1...
4. [10 marks] A second order ordinary differential equation is defined on an interval [0,5) with...
4. [10 marks] A second order ordinary differential equation is defined on an interval [0,5) with boundary conditions, and is given as follows 2 + 3ty = 1+ cos(it), y(0) = 1, y(5) = 0 To solve the equation numerically we approximate it on a one-dimensional discrete mesh with N + 1 grid points. That is, we divide the interval (0,5) into subintervals of size h = 5/N and denote t; = ih, y(t) = y(ih)=yi, i = 0,1,... N...
For the differential equation in) pin -1) + ... + Polly with solutions ....Yo Abel's formula...
For the differential equation in) pin -1) + ... + Polly with solutions ....Yo Abel's formula for the Wronskian is Wy ... (t) = cel ot Consider the equation (4) - y 0 . (a) Use Abel's formula from above to find the Wronskian of a fundamental set of solutions of the given equation. (Use as the constant mentioned in Abel's formula.) w(t) ce el cost, and sint. (b) Determine the Wronskian of the solutions d Wel, e, cost, sin...
Bonus (Abel's formula) a) Show that if y1 and y2 are solutions to the differential equation y"p(t)y(t)y 0 where p and q are continuous on an interval I, then the Wronskian of y and y2, W(y1,y2) (t) is given by - Sp(t)dt ce W(y1, y2)(t) where c depends on y and y2 (b) Use Abel's formula to find the Wronskian of two solutions to the differential equation ty"(t 1)y 3y 0 Do not solve the differential equation
3 Consider the ordinary differential equation: ty +3tyy 0. e) (2 points) Find the Wronskian Wly, yal(t). f) (2 points) Calculate e I podt and compare it to Wl vlt). What do you observe? Does y1(t) = t-1 and y2(t) = t-11nt represent a fundamental set of solutions? g) (2 points) Why? h) (2 points) Find the general solution of ty" +3ty'y 0 İ) (4 points) Solve the initial value problem t2y't3ty'+y = 0, t > 0 with y(1) =...
Consider the ordinary differential equation: t2y" + 3ty' +y = 0. 1 (3 points) e) Use Abel's formula to find the Wronskian of any two solutions of this equation and W[y1,y2](t). What do you observe? compare it to = t1 and y2(t) = t-1 nt represent a fundamental set of solu f) (2 points) Determine if y1 (t) tions (2 points) Find the general solution of t2y" +3ty' +y = 0. g) Solve the initial value problem t2y" + 3ty/...
2. Consider the differential equation ty" – (t+1)y' +y = 2t2 t>0. (a) Check that yı = et and y2 = t+1 are a fundamental set of solutions to the associated homogeneous equation. (b) Find a particular solution using variation of parameters.
Consider the differential
equation, L[y] = y'' + p(t)y' + q(t)y = 0, (1) whose coefficients p
and q are continuous on some open interval I. Choose some point t0
in I. Let y1 be the solution of equation (1) that also satisfies
the initial conditions y(t0) = 1, y'(t0) = 0, and let y2 be the
solution of equation (1) that satisfies the initial conditions
y(t0) = 0, y'(t0) = 1. Then y1 and y2 form a fundamental set...
Show all of the details of your work Consider the ordinary differential equation (x2 + 1) y' + 4xy = 4x a. Find the general. How many solutions does the equation have? b. Determine the that satisfies the initial condition y(0)=5
(3) Consider the differential equation ty' + 3ty + y = 0, 1 > 0. (a) Check that y(t) = 1-1 is a solution to this equation. (b) Find another solution (t) such that yı(t) and (t) are linearly independent (that is, wit) and y(t) form a fundamental set of solutions for the differential equation).
Consider the differential equation y" – 7y + 12 y = 0. (a) Find r1, 72, roots of the characteristic polynomial of the equation above. 11,2 M (b) Find a set of real-valued fundamental solutions to the differential equation above. yı(t) M y2(t) M (C) Find the solution y of the the differential equation above that satisfies the initial conditions y(0) = -4, y'(0) = 1. g(t) = M Consider the differential equation y" – 64 +9y=0. (a) Find r1...
4. [10 marks] A second order ordinary differential equation is defined on an interval [0,5) with boundary conditions, and is given as follows 2 + 3ty = 1+ cos(it), y(0) = 1, y(5) = 0 To solve the equation numerically we approximate it on a one-dimensional discrete mesh with N + 1 grid points. That is, we divide the interval (0,5) into subintervals of size h = 5/N and denote t; = ih, y(t) = y(ih)=yi, i = 0,1,... N...
For the differential equation in) pin -1) + ... + Polly with solutions ....Yo Abel's formula for the Wronskian is Wy ... (t) = cel ot Consider the equation (4) - y 0 . (a) Use Abel's formula from above to find the Wronskian of a fundamental set of solutions of the given equation. (Use as the constant mentioned in Abel's formula.) w(t) ce el cost, and sint. (b) Determine the Wronskian of the solutions d Wel, e, cost, sin...
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