(1 point) Solve the following initial value problem: dt with y(0) 4 y4.56e/eA.45t 2+5.56
(1 point) Solve the following initial value problem: dy + 0.6ty = 3t dt with y(0) = 5. y = (1 point) Solve the following initial value problem: dy dt + 2y = 3t with y(1) = 7. y
(1 point) A. Solve the following initial value problem: dy dt cos (t)-1 with y(6) tan(6). (Find y as a function of t.) (1 point) A. Solve the following initial value problem: dy dt cos (t)-1 with y(6) tan(6). (Find y as a function of t.)
d2y dy +10 dt +25y 0, y(1) 0, y'(1) 1 (1 point) Solve the initial-value problem dt2 Answer: y(t)
1. (25%) Solve the initial-value problem. zdy + 10y = 5; y(0) = 0 4 dt
(1 point) Solve the initial value problem dr dt + 4x = cos(4) with x(0) = -5. z(t) = 1
Solve the given initial value problem. = 4x + y - e (0) = 2 dt dy dt =x+uya (0) = -3 The solution is x(t)= and y(t)=
Problem 2. Solve the given initial-value problem: dx = -xt, r(0) = 1/VT 1. dt dy 2. dt y(0) = 4 y – t?y'
Please solve this in Matlab Consider the initial value problem dx -2x+y dt x(0) m, y(0) = = n. dy = -y dt 1. Draw a direction field for the system. 2. Determine the type of the equilibrium point at the origin 3. Use dsolve to solve the IVP in terms of mand n 4. Find all straight-line solutions 5. Plot the straight-line solutions together with the solutions with initial conditions (m, n) = (2, 1), (1,-2), 2,2), (-2,0)
Solve the following initial value problem: dy/dt+ 0.3ty=4t with y(0)=9.
(1 point) Solve the initial value problem (5 + 2?)y" + 3y = 0, y(0) = 0, y'(0) = 11. If the solution is y=+40+222 +2323 +4424 +0525 +0626 +0,27 +..., enter the following coefficients: co= 0 4 = 11