Solving differential equation involving Heaviside's unit step function using Laplace Transform ddot(y)(t)+2 dot(y)(t)+2y(t)=5H(t−2 pi)sin t

Pellagra3d

Pellagra3d

Answered question

2022-10-15

Solving differential equation involving Heaviside's unit step function using Laplace Transform y ¨ ( t ) + 2 y ˙ ( t ) + 2 y ( t ) = 5 H ( t 2 π ) s i n t
Also, y ( 0 ) = 1 and y ˙ ( 0 ) = 0

Answer & Explanation

zupa1z

zupa1z

Beginner2022-10-16Added 20 answers

Try using
L { H ( t a ) g ( t ) } = L { g ( t + a ) } e a s
Tara Mayer

Tara Mayer

Beginner2022-10-17Added 4 answers

Hint:
L ( y ) + 2 L ( y ) + 2 L ( y ) = L ( 5 H ( t 2 π ) sin t ) s 2 L ( y ) s y ( 0 ) y ( 0 ) + 2 ( s L ( y ) y ( 0 ) ) + 2 L ( y ) = 5 e 2 π s s 2 + 1 L ( y ) ( s 2 + 2 s + 2 ) = 5 e 2 π s s 2 + 1 + s + 2 L ( y ) = 5 e 2 π s ( s 2 + 1 ) ( s 2 + 2 s + 2 ) + s + 2 s 2 + 2 s + 2
‎ Now using partial-fraction decomposition continue!

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