Answer to Question #317101 in Differential Equations for bab

Due to Kirchhoff’s law:

"L\\frac {di}{dt}+Ri=e"

"5\\frac {di}{dt}+12i=120\\sin{200t}"

The solutions to a nonhomogeneous equation are of the form

"i(t) = i_c(t) + i_p(t)"

where "i_c(t)" is the general solution to the associated homogeneous equation and "i_p(t)" is a particular solution.

The associated homogeneous equation:

"5\\frac {di}{dt}+12i=0"

"i_c(t)=Ce^{-\\frac {12}{5}t}"

"i_p(t)=A\\sin{200t}+B\\cos{200t}"

"i_p\u2019(t)=A\\cdot200\\cos{200t}-B\\cdot200\\sin{200t}"

Now put these into the original differential equation to get:

"5 (A\\cdot200\\cos{200t}-B\\cdot200\\sin{200t} )+" "12(A\\sin{200t}+B\\cos{200t})=120\\sin{200t}"

"A=\\frac{90}{62509}" ; "B=-\\frac{7500}{62509}".

Answer: "i( t)=Ce^{-\\frac {12}{5}t}+ \\frac{90}{62509}\\sin{200t}-\\frac{7500}{62509}\\cos{200t}"