Co nsider the IVP dy/dt= 1+ ty, 1≤ t ≤ 2, y(1)=2 with h=0.3. Using Heun's...

solve the given initial value problem. y(cos2t)e^ty - 2(sin2t)e^ty + 2t + (t(cos2t)e^ty - 3) dy/dt...

solve the given initial value problem. y(cos2t)e^ty - 2(sin2t)e^ty + 2t + (t(cos2t)e^ty - 3) dy/dt = 0, y(0)=0

Find the general solution to the given differential equation. 1+(1+ty)e^ty+(1+t^2e^ty) dy/dt=0

Find the general solution to the given differential equation. 1+(1+ty)e^ty+(1+t^2e^ty) dy/dt=0

find the solution for the DE dy/dt +ty^3 +y/t = 0 answer explicitly if passible

find the solution for the DE dy/dt +ty^3 +y/t = 0 answer explicitly if passible

MATLAB Create an M-File for this IVP, dy/dt = t^2 - 16*sin(t), y(0) = 0 and...

MATLAB Create an M-File for this IVP, dy/dt = t^2 - 16*sin(t), y(0) = 0 and create an anonymous function g so that it evaluates the slope field at points of our new ODE. Ensure you use commands of using a for loop to plot the exact solution for the IVP in this exercise as well as the Euler approximations for Δt=0.5, Δt=0.25, and Δt=0.125 all on the same graph.

Find the general solution of the equation. d^2y/dt^2-2t/(1+t^2)*dy/dt+{2/(1+t^2)}*y=1+t^2

Find the general solution of the equation. d^2y/dt^2-2t/(1+t^2)*dy/dt+{2/(1+t^2)}*y=1+t^2

dx/dt - 3(dy/dt) = -x+2 dx/dt + dy/dt = y+t Solve the system by obtaining a...

dx/dt - 3(dy/dt) = -x+2 dx/dt + dy/dt = y+t Solve the system by obtaining a high order linear differential equation for the unknown function of x (t).

1. Solve the following differential equations. (a) dy/dt +(1/t)y = cos(t) +(sin(t)/t) , y(2pie) = 1...

1. Solve the following differential equations. (a) dy/dt +(1/t)y = cos(t) +(sin(t)/t) , y(2pie) = 1 (b)dy/dx = (2x + xy) / (y^2 + 1) (c) dy/dx=(2xy^2 +1) / (2x^3y) (d) dy/dx = y-x-1+(xiy+2) ^(-1) 2. A hollow sphere has a diameter of 8 ft. and is filled half way with water. A circular hole (with a radius of 0.5 in.) is opened at the bottom of the sphere. How long will it take for the sphere to become empty?...

Are both of the following IVPs guaranteed a unique solution? Explain. (a) dy/dt =y^ 1/3sin(t), y(π/2)=0....

Are both of the following IVPs guaranteed a unique solution? Explain. (a) dy/dt =y^ 1/3sin(t), y(π/2)=0. (b) dy/dt =y^1/3 sin(t), y(π/2)=4.

Differential Equations Solve for the IVP ( y2 - 2 sin (2t) )dt + ( 1...

Differential Equations Solve for the IVP ( y2 - 2 sin (2t) )dt + ( 1 + 2ty)dy = 0 y (0)= 1

use Laplace Transform to show that y=t is the solution to the IVP y''+ty'-y=0, y(0)=0,y'(o)=1

use Laplace Transform to show that y=t is the solution to the IVP y''+ty'-y=0, y(0)=0,y'(o)=1