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Solve the system of first-order linear differential equations. (Use C1, C2, and C3 as constants.) Y1...
Solve the system of first-order linear differential equations. (Use C1, C2, and C3 as constants.) Y1 3y2 Y2' 4y1 4y2 + 1473 7y3 = Y3' = 473 (y1(t), y2(t), y(t)) Need Help? Read It Watch It Talk to a Tutor [1/3 Points] DETAILS PREVIOUS ANSWERS LARLINALG8 7.4.029. Write out the system of first-order linear differential equations represented by the matrix equation y' = Ay. (Use y1, and y2, for yi(t), and yz(t).) [01] Yı' = Y2' =
5. Consider the system of differential equations yi = y1 + 2y2, y = -41/2 +...
5. Consider the system of differential equations yi = y1 + 2y2, y = -41/2 + y2 with initial conditions yi(0) = 1, y2(0= 0. This has exact solution yı(t) = exp(t) cos(t), yz(t) = - exp(t) sin(t)/2. (a) Apply Euler's method with h=1/4 and find the global truncation error by comparing with the exact solution over the interval [0, 1]. (b) Apply the RK4 method with h=1 and find the global truncation error by comparing with the exact solution...
Step by step please. Solve the system of first-order linear differential equations. (Use C1 and C2...
Step by step please.
Solve the system of first-order linear differential equations. (Use C1 and C2 as constants.) Yı' = y1 Y2' = 3y2 (y1(t), yz(t)) = ) x Solve the system of first-order linear differential equations. (Use C1, C2, C3, and C4 as constants.) Yi' = 3y1 V2' = 4Y2 Y3' = -3y3 Y4' = -474 (71(t), yz(t), y(t), 74(t)) =
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. (Existence/uniqueness theorem, Strogatz 6.2): Consider the system (a) Show by substitution tha...
3. (Existence/uniqueness theorem, Strogatz 6.2): Consider the system (a) Show by substitution that (t) sin, () cost is an exact solution. (b) Now consider another solution, with initial condition a(0)-1/2, y(0) 0. Without doing any work, explain why this solution must satisfy y2 < 1 for all t < oo. For the systems in problems 4-7, find the fixed points, linearize about them, classify their stability, draw their local trajectories, and try to fill in the full phase portrait.
3....
Problem 5. (20 pts) Let ER be a positive real number and consider the damped system...
Problem 5. (20 pts) Let ER be a positive real number and consider the damped system modeled by the following second-order differential equation: y"(t) + yy' (t) + 25y(t) = 0, (a) Show that the long-term behaviour of all solutions is independent of y. (b) For which values of ye R+ does the above differential equation have oscillating solutions ? (i.e. solutions with infinitely many zeroes.) (c) Classify the above damped system into underdamped, critically damped and overdamped in terms...
A) Assume that y1(c) t and y2)te are solutions of the differential equation t2y_ t(t + 2))" + t(t...
a) Assume that y1(c) t and y2)te are solutions of the differential equation t2y_ t(t + 2))" + t(t + 2)y-0, t > 0 Do y1(t) and y2() form a fundamental set of solutions of the O.D.E.? C) State the general solution for this O.D.E.
a) Assume that y1(c) t and y2)te are solutions of the differential equation t2y_ t(t + 2))" + t(t + 2)y-0, t > 0 Do y1(t) and y2() form a fundamental set of solutions of...
find Y1=, Y2=, and W(t)= (1 point) Find the function yi of t which is the...
find Y1=, Y2=, and W(t)=
(1 point) Find the function yi of t which is the solution of 25y" – 40y' + 12y = 0 y(0) = 1, yf(0) = 0. with initial conditions Yi = Find the function y2 of t which is the solution of 25y" – 40y' + 12y = 0 with initial conditions Y2 = Find the Wronskian W(t) = W(y1, y2). W(t) = Remark: You can find W by direct computation and use Abel's theorem...
Consider the system of linear ODES 1 (1) = 35 yj (1) - 16 y2 (1)...
Consider the system of linear ODES 1 (1) = 35 yj (1) - 16 y2 (1) – 26 yz (1), dy2 (1) = 30 yy (0) - 15 y2 (1) – 22 yz (1). di Y3 (1) = 36 y1 (1) - 16 yz (1) - 27 y3 (). (71 The system of equation written as y' (t) = Ay(t), where y(t) = 2(1) (a) Enter the matrix A in the box below. ab sin(a) f a 2 (-1) (-2)(-1...
Consider the nonlinear second-order differential equation where k > 0 is a constant. Answer to the following questio...
Consider the nonlinear second-order differential equation where k > 0 is a constant. Answer to the following questions (a) Derive a plane autonomous system from the given equation and find all the critical points (b) Classify(discriminate/categorize) all the critical points into one of the three cat- egories: {stable / saddle / unstable(not saddle)) (c) Show that there is no periodic solution in a simply connected region (Hint: Use the corollary to Theorem 11.5.1)
Consider the nonlinear second-order differential equation where...
Solve the system of first-order linear differential equations. (Use C1, C2, and C3 as constants.) Y1 3y2 Y2' 4y1 4y2 + 1473 7y3 = Y3' = 473 (y1(t), y2(t), y(t)) Need Help? Read It Watch It Talk to a Tutor [1/3 Points] DETAILS PREVIOUS ANSWERS LARLINALG8 7.4.029. Write out the system of first-order linear differential equations represented by the matrix equation y' = Ay. (Use y1, and y2, for yi(t), and yz(t).) [01] Yı' = Y2' =
5. Consider the system of differential equations yi = y1 + 2y2, y = -41/2 + y2 with initial conditions yi(0) = 1, y2(0= 0. This has exact solution yı(t) = exp(t) cos(t), yz(t) = - exp(t) sin(t)/2. (a) Apply Euler's method with h=1/4 and find the global truncation error by comparing with the exact solution over the interval [0, 1]. (b) Apply the RK4 method with h=1 and find the global truncation error by comparing with the exact solution...
Step by step please.
Solve the system of first-order linear differential equations. (Use C1 and C2 as constants.) Yı' = y1 Y2' = 3y2 (y1(t), yz(t)) = ) x Solve the system of first-order linear differential equations. (Use C1, C2, C3, and C4 as constants.) Yi' = 3y1 V2' = 4Y2 Y3' = -3y3 Y4' = -474 (71(t), yz(t), y(t), 74(t)) =
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. (Existence/uniqueness theorem, Strogatz 6.2): Consider the system (a) Show by substitution that (t) sin, () cost is an exact solution. (b) Now consider another solution, with initial condition a(0)-1/2, y(0) 0. Without doing any work, explain why this solution must satisfy y2 < 1 for all t < oo. For the systems in problems 4-7, find the fixed points, linearize about them, classify their stability, draw their local trajectories, and try to fill in the full phase portrait.
3....
Problem 5. (20 pts) Let ER be a positive real number and consider the damped system modeled by the following second-order differential equation: y"(t) + yy' (t) + 25y(t) = 0, (a) Show that the long-term behaviour of all solutions is independent of y. (b) For which values of ye R+ does the above differential equation have oscillating solutions ? (i.e. solutions with infinitely many zeroes.) (c) Classify the above damped system into underdamped, critically damped and overdamped in terms...
a) Assume that y1(c) t and y2)te are solutions of the differential equation t2y_ t(t + 2))" + t(t + 2)y-0, t > 0 Do y1(t) and y2() form a fundamental set of solutions of the O.D.E.? C) State the general solution for this O.D.E.
a) Assume that y1(c) t and y2)te are solutions of the differential equation t2y_ t(t + 2))" + t(t + 2)y-0, t > 0 Do y1(t) and y2() form a fundamental set of solutions of...
find Y1=, Y2=, and W(t)=
(1 point) Find the function yi of t which is the solution of 25y" – 40y' + 12y = 0 y(0) = 1, yf(0) = 0. with initial conditions Yi = Find the function y2 of t which is the solution of 25y" – 40y' + 12y = 0 with initial conditions Y2 = Find the Wronskian W(t) = W(y1, y2). W(t) = Remark: You can find W by direct computation and use Abel's theorem...
Consider the system of linear ODES 1 (1) = 35 yj (1) - 16 y2 (1) – 26 yz (1), dy2 (1) = 30 yy (0) - 15 y2 (1) – 22 yz (1). di Y3 (1) = 36 y1 (1) - 16 yz (1) - 27 y3 (). (71 The system of equation written as y' (t) = Ay(t), where y(t) = 2(1) (a) Enter the matrix A in the box below. ab sin(a) f a 2 (-1) (-2)(-1...
Consider the nonlinear second-order differential equation where k > 0 is a constant. Answer to the following questions (a) Derive a plane autonomous system from the given equation and find all the critical points (b) Classify(discriminate/categorize) all the critical points into one of the three cat- egories: {stable / saddle / unstable(not saddle)) (c) Show that there is no periodic solution in a simply connected region (Hint: Use the corollary to Theorem 11.5.1)
Consider the nonlinear second-order differential equation where...
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