Question
In: Advanced Math
for y(t) function ty'' - ty' + ty = 0, y(0)= 0 , y'(0)= 1 solve...
for y(t) function ty'' - ty' + ty = 0, y(0)= 0 , y'(0)= 1
solve this initial value problem by using Laplace Transform. (The equation could have been given such as "y'' - y' + y = 0" but it is not. Please, be careful and solve this question step by step.) )
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Colby Messinger answered 2 years agoRelated Solutions
a) ty’ −y/(1+T) = T,(T>0),y(1)=0 b) y′+(tanT)y=(cos(T))^2,y(0)=π2 Solve the above equations.
a) ty’ −y/(1+T) = T,(T>0),y(1)=0
b) y′+(tanT)y=(cos(T))^2,y(0)=π2
Solve the above equations.
Solve using Laplace Transform ty'' + 2(t-1)y'-2y = 0 y(0)=0, y'(0)=0, Y(s) = C/(s^2+2s)^2 (C is...
Solve using Laplace Transform
ty'' + 2(t-1)y'-2y = 0 y(0)=0, y'(0)=0, Y(s) = C/(s^2+2s)^2 (C
is arbitrary)
solve the following initial value problem y''+4y'=g(t),y(0)=0,y' (0)=1 if g(t) is the function which is 1...
solve the following initial value problem y''+4y'=g(t),y(0)=0,y'
(0)=1 if g(t) is the function which is 1 on [0,1) and zero
elsewhere
Suppose that y′=0.162sin2(ty)+1. Plot y(t) from t=0 to t=4 with y(0)=1.286 using Euler's method with a...
Suppose that y′=0.162sin2(ty)+1. Plot y(t) from t=0
to t=4 with y(0)=1.286 using Euler's method with a step size of
0.4.
Solve the following differential equation, using laplace transforms: y''+ty-y=0 where y(0)=0 and y'(0)=3
Solve the following differential equation, using laplace
transforms:
y''+ty-y=0
where
y(0)=0
and
y'(0)=3
Please draw the solution without solve the IVP y"+y=dirac function (t-pi/2) y(0)=0, y'(0) . (Label y(t)...
Please draw the solution without solve the IVP y"+y=dirac
function (t-pi/2) y(0)=0, y'(0) . (Label y(t) and t number as well)
I need a professional expert to answer this question. (be
able to follow the comment) (Show the step for what you need to get
for drawing this solution as well)
Solve with Laplace transform 1. y''+ 4 t y'− 4y = 0, y(0) = 0, y'(0)...
Solve with Laplace transform
1. y''+ 4 t y'− 4y = 0, y(0) = 0, y'(0) = −7
2. (1− t) y''+ t y' − y = 0, y(0) = 3, y'(0) = −1
Solve y''-y=e^t(2cos(t)-sin(t)) with initial condition y(0)=y'(0)=0
Solve y''-y=e^t(2cos(t)-sin(t)) with initial condition
y(0)=y'(0)=0
Solve the laplace transform to solve the initial value problem. y"-6y'+9y=t. Y(0)=0, y'(0)=1
Solve the laplace transform to solve the initial value
problem.
y"-6y'+9y=t. Y(0)=0, y'(0)=1
y'' - y = e^(-t) - (2)(t)(e^(-t)) y(0)= 1 y'(0)= 2 Use Laplace Transforms to solve....
y'' - y = e^(-t) - (2)(t)(e^(-t)) y(0)= 1 y'(0)= 2
Use Laplace Transforms to solve. Sketch the solution or use
matlab to show the graph.
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