The Simulink model of differential equations is established, and the model can be solved with the sim () function to obtain the numerical solution of the differential equation
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举一反三
- The solution of the differential equation with arbitrary constants is called the general solution of the differential equation.
- The solution of the differential equation with arbitrary constants is called the general solution of the differential equation. A: 正确 B: 错误
- This function(函数) does satisfy the given differential equation(微分方程).
- When using the symbolic computing function of MATLAB to find the analytic solution of the initial value problem of differential equation, the function is ( ). A: ode23 B: ode45 C: solve D: dsolve
- The general solutions of differential equations are all solutions of differential equations.
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The general solution of the differential equation [img=201x44]1803e24422185ed.png[/img]is [img=118x44]1803e2442a61dbd.png[/img].
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The particular solution of the differential equation [img=206x26]1803e25809506f2.png[/img]is [img=133x43]1803e25811e3adf.png[/img].
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The particular solution of the differential equation [img=183x27]1803e257e39476b.png[/img] is [img=103x43]1803e257ec455bd.png[/img].
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The general solution of the differential equation [img=144x27]1803e2581afeebe.png[/img] is [img=116x43]1803e258243274e.png[/img].
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The general solution of the differential equation [img=135x26]1803e258461d3cb.png[/img] is [img=205x27]1803e25851a55c6.png[/img].