Blog guideLinear Signal and Systems

July 19, 2021by Dataman0

Linear Signal and Systems [25] Find the inverse Laplace transform of

( ) 1 2 4 3 1 9

X s

s s s

= + + − − +

( )

( 1)( 3)

X s

s s

= + +

( ) 2 4 1

( 1)( 2)

s s

X s

s s

+ +

( )

( 3)( 2 5)

X s

s s s

= + + +

2 3

( )

( 5 4)

s s

X s se e

s s s

− −

+ +

Check your results using MATLAB … useful functions are ilaplace() and

partfrac() Linear Signal and Systems

[10] If the output of a system is = cos 4 when an input,

= 10 , what is the transfer function of the system at hand?

[10] Suppose the transfer function of a system is given by

H s( ) 2s6

= +

Calculate its impulse response and the output yZS(t) if the input is =

[15] Use Laplace transform to solve the following differential equations (i.e.,

solve for y(t))

2 3 4 ( )

d y dy

y e u t

dt dt

−

+ − =

with y(0) = 1 and

(0) 0

6 25 2

d y dy dx

y x

dt dt dt

+ + = +

where x(t) = 25u(t) and ICs are y(0) = 1 and

dy(0) 1

[25] Find the inverse Laplace transform of Linear Signal and Systems

( ) 1 2 4 3 1 9

X s

s s s

= + + − − +

( )

( 1)( 3)

X s

s s

= + +

( ) 2 4 1

( 1)( 2)

s s

X s

s s

+ +

( )

( 3)( 2 5)

X s

s s s

= + + +

2 3

( )

( 5 4)

s s

X s se e

s s s

− −

+ +

Check your results using MATLAB … useful functions are ilaplace() and

partfrac()

[10] If the output of a system is = cos 4 when an input,

= 10 , what is the transfer function of the system at hand?

[10] Suppose the transfer function of a system is given by

H s( ) 2s6

= +

Calculate its impulse response and the output yZS(t) if the input is =

[15] Use Laplace transform to solve the following differential equations (i.e.,

solve for y(t))

2 3 4 ( )

d y dy

y e u t

dt dt

−

+ − =

with y(0) = 1 and

(0) 0

6 25 2

d y dy dx

y x

dt dt dt

+ + = +

where x(t) = 25u(t) and ICs are y(0) = 1 and

dy(0) 1

Blog guideLinear Signal and Systems

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