If VX = ‒12 V in the network in Fig. P2.41, find VS and VBA.
Figure P2.41
Refer to Figure P2.41 in the text book.
From the circuit, the voltage is,
Substituteforin the equation.
Apply Kirchhoff’s voltage law to the circuit.
Substitute for and for in the equation.
Thus, the value of voltage is .
Calculate the value of voltage.
Substitute for in the equation.
Thus, the value of voltage is .
Refer to Figure P2.41 in the text book.
From the circuit, the voltage is,
Substituteforin the equation.
Apply Kirchhoff’s voltage law to the circuit.
Substitute for and for in the equation.
Thus, the value of voltage is .
Calculate the value of voltage.
Substitute for in the equation.
Thus, the value of voltage is .