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Mesh analysis is a method used to solve electrical circuits by dividing the circuit into smaller loops, known as meshes. It involves applying Kirchhoff's voltage law and Ohm's law to each mesh to determine the current and voltage values.
Super mesh is a variation of mesh analysis that is used when a current source is present in a mesh. It involves creating a super mesh by combining two adjacent meshes and treating the current source as an external element.
The steps for solving a super mesh problem are as follows:
1. Identify the meshes in the circuit
2. Create a super mesh by combining two adjacent meshes
3. Apply Kirchhoff's voltage law to the super mesh
4. Apply Ohm's law to any resistors in the super mesh
5. Solve the resulting equations to find the current and voltage values in the super mesh
6. Use the values to find the values in the original meshes.
Super mesh should be used when there is a current source present in a mesh. This method allows for the analysis of circuits that cannot be solved using regular mesh analysis.
Yes, there are some limitations to using super mesh. It can only be used when there is a current source present in a mesh and the circuit must be planar, meaning that it can be drawn on a flat surface without any crossing lines. Additionally, super mesh cannot be used when there are current sources present in both meshes that are being combined to create the super mesh.