1. Thevenin resistance Rth is found: a) by removing voltage sources along with their internal resistances b) by short-circuiting the given two terminals c) between any two 'open' terminals d) between same open terminals as for Vth 2. Thevenin theorem gives: a) an equivalent current source in parallel with an equivalent Resistance b) an equivalent voltage source in parallel with an equivalent Resistance c) an equivalent current source in series with an equivalent Resistance d) an equivalent voltage source in series with an equivalent Resistance 3. The two basic components of a Norton equivalent circuit are: a) the equivalent current source and the equivalent parallel resistance b) the equivalent current source and the equivalent series resistance c) the equivalent voltage source and the equivalent parallel resistance d) the equivalent voltage source and the equivalent parallel impedance 4. Thevenin's voltage is equal to the a) short circuit, input b) short circuit, output c) open circuit, output d) open circuit, input e) none of the above voltage across the 5. The purpose of applying Thevenin's theorem is: a) calculating the power dissipation on RL b) reducing the network to a much simpler equivalent circuit c) measuring Thevenin's voltage VTH d) calculating all the node voltages in the circuit