Find the Laplace transform of the following differential equation and express it \\(Q(s)\\) as a single fraction:
\n\\(\\frac{d^2q}{dt^2}+\\var{a}\\frac{dq}{dt}+\\var{b}q(t)=\\var{c}e^{-\\var{d}t}\\) where \\(q(0)=\\var{f}\\) and \\(q'(0)=\\var{g}\\)
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", "gaps": [{"checkingaccuracy": 0.001, "answer": "({f}s^2+({f}*{a}+{g}+{d}*{f})s+(({g}+{a}*{f})*{d}+{c}))/((s+{d})(s^2+{a}s}+{b}))", "scripts": {}, "variableReplacementStrategy": "originalfirst", "showFeedbackIcon": true, "vsetrangepoints": 5, "variableReplacements": [], "expectedvariablenames": [], "showpreview": true, "checkingtype": "absdiff", "marks": "3", "type": "jme", "showCorrectAnswer": true, "vsetrange": [0, 1], "checkvariablenames": false}], "showCorrectAnswer": true, "variableReplacementStrategy": "originalfirst", "showFeedbackIcon": true, "scripts": {}, "variableReplacements": []}], "advice": "\\(\\frac{d^2q}{dt^2}+\\var{a}\\frac{dq}{dt}+\\var{b}q(t)=\\var{c}e^{-\\var{d}t}\\) where \\(q(0)=\\var{f}\\) and \\(q'(0)=\\var{g}\\)
\n\n\\(s^2Q(s)-sq(0)-q'(0)+\\var{a}(s(Q(s)-q(0))+\\var{b}Q(s)=\\frac{\\var{c}}{s+\\var{d}}\\)
\n\n\\(s^2Q(s)-\\var{f}s-\\var{g}+\\var{a}sQ(s)-\\var{a}*\\var{f}+\\var{b}Q(s)=\\frac{\\var{c}}{s+\\var{d}}\\)
\n\n\\(s^2Q(s)+\\var{a}sQ(s)+\\var{b}Q(s)=\\frac{\\var{c}}{s+\\var{d}}+\\var{f}s+\\simplify{{g}+{a}*{f}}\\)
\n\n\\((s^2+\\var{a}s+\\var{b})Q(s)=\\frac{\\var{c}+(\\var{f}s+\\simplify{{g}+{a}*{f}})(s+\\var{d})}{s+\\var{d}}\\)
\n\n\\(Q(s)=\\frac{\\simplify{{f}s^2+({a}*{f}+{g}+{d}*{f})s+(({g}+{f}*{a})*{d}+{c})}}{(s+\\var{d})(s^2+\\var{a}s+\\var{b})}\\)
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