How Do You Solve the Supernode Equation Involving Node C?

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The discussion focuses on solving a supernode equation involving node C, where the voltage at node C is established as 150 volts due to a connected battery. The equations provided include relationships between the voltages at nodes A, B, C, and D, with specific attention to the impact of resistors on these voltages. A participant points out an error related to node D, suggesting a correction to the third equation for accurate results. Final calculated values for the voltages are Va = 11.712, Vb = 111.712, Vc = 150, and Vd = -63.063. The conversation emphasizes the importance of correctly applying voltage constraints in circuit analysis.
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I am trying to resolve this super node but i am having trouble with the equation, more specifically node c, this is where i got so far


5 = Va/20 +(Va - Vd)/10 + (Vb - Vc)/12.5
-10 = (Vd - Va)/10 + Vd/25
-Va + Vb = 100

please explain the c node equation
 

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Assuming the positive end of the 150 volt battery is connected to node C, then the equation is simply: Vc = 150
 
but don't we have to include the 12.5 resistor from node b to node c?
 
That resistor is taken care of by your first equation.

When you have a voltage source connected from ground to some node, you need a (constraint) equation that simply says that the voltage at (in this case) node C is 150 volts.

It's similar to your third equation.
 
i am getting an error on node d can anyone tell me what i am doing wrong, its the 3rd equation on the last process
 

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I think that equation should be:

-5Va + 7Vd = -500

For final answers, I get:

Va = 11.712
Vb = 111.712
Vc = 150
Vd = -63.063
 

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