For the circuit shown in figure 2, assume that the voltage source (vs) is equal to 100 V and the current source (is) is equal to 12 A. Use the node-voltage method in your solution. Write out all equations and units in full 2.1) Bereken die spanning in volts by node V1. / Calculate the voltage in volts at node V1. 2.2) Bereken die spanning in volts by node V2. / Calculate the voltage in volts at node V2. 2.3) Bereken die stroom i1 in ampere. / Calculate the current i1 in ampere.
For the circuit shown in figure 2, assume that the voltage source (vs)
is equal to 100 V and the current source (is) is equal to 12 A. Use the node-voltage method in your solution.
Write out all equations and units in full
2.1) Bereken die spanning in volts by node V1. / Calculate the voltage in volts at node V1.
2.2) Bereken die spanning in volts by node V2. / Calculate the voltage in volts at node V2.
2.3) Bereken die stroom i1 in ampere. / Calculate the current i1 in ampere.
2.4) Bereken die drywing in watt geassosieer met die onafhanklike spanningsbron. / Calculate the power in
watt associated with the independent voltage source.
2.5) Bereken die drywing in watt geassosieer met die onafhanklike stroombron. / Calculate the power in watt
associated with the independent current source.
2.6) Bereken die drywing in watt geassosieer met die afhanklike bron. Neem aan dat die spanning by node
V1 gelyk is aan 66.133 V. / Calculate the power in watt associated with the dependent source. Assume
that the voltage at node V1 is equal to 66.133 V
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