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Question

The general form of \(2^{nd}\) order linear homogeneous ODE is [...].

Answer

\(a_{2}(x)\frac{d^{2}y}{dx^{2}}+a_{1}(x)\frac{dy}{dx}+a_{0}(x)y(x)=0\) where \(a_{n}(x),\ n=0,1,2\) are the function of \(x\)

Question

The general form of \(2^{nd}\) order linear homogeneous ODE is [...].

Answer

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Question

The general form of \(2^{nd}\) order linear homogeneous ODE is [...].

Answer

\(a_{2}(x)\frac{d^{2}y}{dx^{2}}+a_{1}(x)\frac{dy}{dx}+a_{0}(x)y(x)=0\) where \(a_{n}(x),\ n=0,1,2\) are the function of \(x\)

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**General Form for 2nd Oder Linear Homogeneous ODE**

The general form of \(2^{nd}\) order linear homogeneous ODE is \(a_{2}(x)\frac{d^{2}y}{dx^{2}}+a_{1}(x)\frac{dy}{dx}+a_{0}(x)y(x)=0\) where \(a_{n}(x),\ n=0,1,2\) are the function of \(x\).

The general form of \(2^{nd}\) order linear homogeneous ODE is \(a_{2}(x)\frac{d^{2}y}{dx^{2}}+a_{1}(x)\frac{dy}{dx}+a_{0}(x)y(x)=0\) where \(a_{n}(x),\ n=0,1,2\) are the function of \(x\).

status | not learned | measured difficulty | 37% [default] | last interval [days] | |||
---|---|---|---|---|---|---|---|

repetition number in this series | 0 | memorised on | scheduled repetition | ||||

scheduled repetition interval | last repetition or drill |

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