Initial value problem dy/dt=(6t^5/1+t^6)y+7(1+t^6)^2 y(1)=8

Solve the initial value problem 8(t+1)dy/dt - 6y = 12t for t > -1 with y(0)...

Solve the initial value problem 8(t+1)dy/dt - 6y = 12t for t > -1 with y(0) = 7 7 =

Solve the initial value problem 8(t+1)dy/dt−6y=12t, for t>−1 with y(0)=11.

Solve the initial value problem 8(t+1)dy/dt−6y=12t, for t>−1 with y(0)=11.

1. Solve the following initial value problem using Laplace transforms. d^2y/dt^2+ y = g(t) with y(0)=0...

1. Solve the following initial value problem using Laplace transforms. d^2y/dt^2+ y = g(t) with y(0)=0 and dy/dt(0) = 1 where g(t) = t/2 for 0<t<6 and g(t) = 3 for t>6

1)Consider the following initial-value problem. (x + y)2 dx + (2xy + x2 − 2) dy...

1)Consider the following initial-value problem. (x + y)2 dx + (2xy + x2 − 2) dy = 0,   y(1) = 1. Let af/ax = (x + y)2 = x2 + 2xy + y2. Integrate each term of this partial derivative with respect to x, letting h(y) be an unknown function in y. f(x, y) =   + h(y) Solve the given initial-value problem. 2) Solve the given initial-value problem. (6y + 2t − 3) dt + (8y + 6t − 1) dy...

1)  Consider the following initial-value problem. (x + y)2 dx + (2xy + x2 − 2) dy...

1)  Consider the following initial-value problem. (x + y)2 dx + (2xy + x2 − 2) dy = 0,   y(1) = 1 Let af/ax = (x + y)2 = x2 + 2xy + y2. Integrate each term of this partial derivative with respect to x, letting h(y) be an unknown function in y. f(x, y) =    + h(y) Find the derivative of h(y). h′(y) = Solve the given initial-value problem. 2) Solve the given initial-value problem. (6y + 2t − 3) dt...

Solve the initial value problem t^(13) (dy/dt) +2t^(12) y =t^25 with t>0 and y(1)=0 (y'-e^-t+4)/y=-4, y(0)=-1

Solve the initial value problem t^(13) (dy/dt) +2t^(12) y =t^25 with t>0 and y(1)=0 (y'-e^-t+4)/y=-4, y(0)=-1

Initial value problem : Differential equations: dx/dt = x + 2y dy/dt = 2x + y...

Initial value problem : Differential equations: dx/dt = x + 2y dy/dt = 2x + y Initial conditions: x(0) = 0 y(0) = 2 a) Find the solution to this initial value problem (yes, I know, the text says that the solutions are x(t)= e^3t - e^-t and y(x) = e^3t + e^-t and but I want you to derive these solutions yourself using one of the methods we studied in chapter 4) Work this part out on paper to...

Solve the initial value problem 9(t+1) dy dt −6y=18t, 9(t+1)dydt−6y=18t, for t>−1 t>−1 with y(0)=14. y(0)=14....

Solve the initial value problem 9(t+1) dy dt −6y=18t, 9(t+1)dydt−6y=18t, for t>−1 t>−1 with y(0)=14. y(0)=14. Find the integrating factor, u(t)= u(t)= , and then find y(t)= y(t)=

1. Solve the given initial value problem. dy/dt = (t^3 + t)/(y^2); y(0) = 2 ....

1. Solve the given initial value problem. dy/dt = (t^3 + t)/(y^2); y(0) = 2 . 2. We know from Newton’s Law of Cooling that the rate at which a cold soda warms up is proportional to the difference between the ambient temperature of the room and the temperature of the drink. The differential equation corresponding to this situation is given by y' = k(M − y) where k is a positive constant. The solution to this equation is given...

given the following functions, evaluate the derivatives dy/dt of the following functions. y=10t −6t+8 y =...

given the following functions, evaluate the derivatives dy/dt of the following functions. y=10t −6t+8 y = 10 sin 4t + 4t2 y = 10 cos 5t − 5t3 y = 9et2+2 y = 9 ln?t2 + 2? y = 5t sin(4t)