2. In the Figure 23.10, a 4-winding transformer is shown along with number of turns of the windings. The first winding i

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2. In the Figure 23.10, a 4-winding transformer is shown along
with number of turns of the windings. The first winding is
energized with 200 V, 50 Hz supply. Across the 2nd winding a pure
inductive reactance XL = 20 Ω is connected. Across the 3rdwinding a
pure resistance R = 15 Ω and across the 4th winding a capacitive
reactance of XC = 10 Ω are connected. Calculate the input current
and the power factor at which it is drawn. 2. In the Figure 23.10,
a 4-winding transformer is shown along with number of turns of the
windings. The first winding is energized with 200 V, 50 Hz supply.
Across the 2nd winding a pure inductive reactance XL = 20 Ω is
connected. Across the 3rd winding a pure resistance R = 15 Ω and
across the 4th winding a capacitive reactance of XC = 10 Ω are
connected. Calculate the input current and the power factor at
which it is drawn. 2. In the Figure 23.10, a 4-winding transformer
is shown along with number of turns of the windings. The first
winding is energized with 200 V, 50 Hz supply. Across the 2nd
winding a pure inductive reactance XL = 20 Ω is connected. Across
the 3rd winding a pure resistance R = 15 Ω and across the 4th
winding a capacitive reactance of XC = 10 Ω are connected.
Calculate the input current and the power factor at which it is
drawn.