Question 1
Convert the complex number into polar form 6-j9.
Question 2
Find the value of impedance Z2 in the series circuit.
Question 3
Using KVL calculate the voltage across the resistance of 5Ω if it is in series with an inductance of 0.02H and connected across a 100 V, 40Hz supply.
Question 4
If a current of 70∠-25° mA passes through the impedance Z1 = 90∠40°Ω, find the current passed through the impedance Z2 = 35∠50°Ω using Cartesian co-ordinates.
Question 5
Find the current passing through a branch whose impedance is Z = (7 + j7) when a voltage of V = 150V is applied.
Question 6
If the voltage V= 80V, 50Hlis applied across a coil of resistance of 10Ω and inductance of 30mH find the magnitude of the impedance.
Question 7
For the circuit shown below, find the value of VI.
Question 8
Calculate the impedance value (in phasor notation) for the following circuit (assume f = 1000Hz).
Question 9
Calculate the impedance value (in phasor notation) for the following circuit (assume f = 1000Hz). Would this cicuit use more power at high or low frequencies?
Question 10
A voltmeter placed across a 90 resistor reads 20V as shown in the figure below. Calculate the ammeter reading and the phase angle of the current I.
