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Engineering course on microcontrollers, Study notes of Electrical and Electronics Engineering

Université du Québec Electrical and Electronics Engineering

Engineering course on microcontrollers

Typology: Study notes

2024/2025

Uploaded on 02/13/2025

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ECE-205 : Dynamical Systems

Homework #2

Due : Thursday September 16 at the beginning of class

1) Problem 2.5 from the Notes

2) Problem 2.6 from the Notes

3) For each of the following first order differential equations, use an integrating factor to write

()yt

as a

function of its initial value

0

( )yt

and an integral of the input (plus some other functions)

1

( ) ( ) ( ) ( ) ( ) ( 2)

2

1

( ) ( ) ( ) ( ) cos( ) ( ) ( )

t

ay t by t cx t y t ty t x t

y t y t x t y t t y t e x t

t

    

   

Answers:

22 22

00

0

00

( ) ( ) ()

00

sin( ) sin( ) sin( ) sin( )

000

( ) ) ( ) ( ) ) ( 2( ( 2

((

)

( ) ) ( ) ( ) ) ( )

bb

t t t tt t

a

tt

t

a

tt

t

c

y t e x d y t e x d

a

t

y t e y t e

y t y t ey t x d y t e e x d

tt



   

   

    

 

    

 

   



 





4) Show that the governing differential equation for the following circuit is given by

2( ) ( ) ( ) ( ) ( )

b

b a b b a b

a

R

C C y t R C C y t y t x t

R

R   

and that for this circuit

1

n

b a b

R C C





,

2

ab

CC







, and

b

a

R

KR



Partial preview of the text

Download Engineering course on microcontrollers and more Study notes Electrical and Electronics Engineering in PDF only on Docsity!

ECE-205 : Dynamical Systems

Homework #

Due : Thursday September 16 at the beginning of class

1) Problem 2.5 from the Notes

2) Problem 2.6 from the Notes

3) For each of the following first order differential equations, use an integrating factor to write y t( ) as a

function of its initial value y t( 0 )and an integral of the input (plus some other functions)

( ) ( ) ( ) ( ) cos( ) ( ) ( )

t

ay t by t cx t y t ty t x t

y t y t x t y t t y t e x t t

Answers:

0 2 2 2 2 0

0 0

0

0 0

( ) ( ) ( ) 0 0

0 sin( )^ sin(^ )^ sin( )^ sin(^ ) 0 0

b b t t t a t^ t^ t

t t

t

a

t t

t

c y t e x d y t e x d a

t

y t e y t e

y t y t x d y t e y t e e x d t t

 

   

    

     

   

4) Show that the governing differential equation for the following circuit is given by

2 ( ) ( ) ( ) ( ) ( )

b b a b b a b a

R

C C y t R C C y t y t x t R

R    

and that for this circuit

n Rb C Ca b

a b

C C

 , and

b

a

R

K

R

5) Show that the governing differential equation for the following circuit is given by

a a b

a b a b a b

LCR L R R C

y t y t y t x t R R R R R R

  ^   ^  

and that for this circuit a b n a

R R

LCR



a b

a a b

L R R C

LCR R R



, and

a b

K

R R

6) Show that the governing differential equation for the following circuit is given by

  ^ 

2 R R Ca b y t( )  2 R Ca  R Cb y t( )  y t( ) x t( )

and that for this circuit

n C R Ra b

a b

R R

 , and K  1.

Engineering course on microcontrollers, Study notes of Electrical and Electronics Engineering

Related documents

Partial preview of the text

Download Engineering course on microcontrollers and more Study notes Electrical and Electronics Engineering in PDF only on Docsity!

R

R    

C C

C C

R

K

R

LCR L R R C

  ^   ^  

R R

LCR

L R R C

LCR R R

K

R R

  ^ 

R R

R R