Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
What is the unit of susceptance?
A
Mho
B
Ohm
C
Henry
D
Farad
Susceptance measures how easily a circuit allows AC current to flow, and its unit is the mho (or siemens),
which is the reciprocal of ohm, representing conductance in AC circuits.
What is the resistance of an inductive coil that takes 5 A current across 240 V, 50 Hz supply at 0.8 power factor?
A
48 Ω
B
42.5 Ω
C
38.4 Ω
D
26.6 Ω
The resistance can be calculated using the formula R = V / (I × power factor).
Here, resistance accounts for real power consumption in the coil.
