Section 1 Introduction / Transformers Sometimes shell type transformers are formed by combining two sections, the sections can be seen in the scenario 2. In this problem a comparison is required to judge how much magnetic flux differentiate in both scenarios i.e., when the sections are tightly joined (scenario 1) and when there is an air gap created. The scenarios shown below, all dimensions are clearly specified. N is your Registration number. The question parts are Relative Permeability 4000 2.5cm 2.5cm 2.5cm | 2.5cm 0.5cm Air Gap 30cm 25cm N? 2.5cm Air gap fringing affects incearse area by 10 % 50cm Depth = 10cm Scenario 1 Scenario 2 a) Draw the equivalent circuit for scenario 1 and calculate the equivalent reluctance. b) Draw the equivalent circuit for scenario 2 and calculate the equivalent reluctance. c) What will be the net magnetic flux flowing through the for 2A currents in both scenarios?

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Take N=10 for both the cases. And solve all 3 subdivisions please 

Section 1 Introduction / Transformers
Sometimes shell type transformers are formed by combining two sections, the sections can be seen in the
scenario 2. In this problem a comparison is required to judge how much magnetic flux differentiate in
both scenarios i.e., when the sections are tightly joined (scenario 1) and when there is an air gap created.
The scenarios shown below, all dimensions are clearly specified. N is your Registration number. The
question parts are
Relative Permeability 4000
2.5cm
2.5cm
2.5cm
2.5cm
0.5cm
Air Gap
30cm
25cm
2.5cm
Air gap fringing affects
incearse area by 10 %
50cm
Depth = 10cm
Scenario 1
Scenario 2
a) Draw the equivalent circuit for scenario 1 and calculate the equivalent reluctance.
b) Draw the equivalent circuit for scenario 2 and calculate the equivalent reluctance.
c) What will be the net magnetic flux flowing through the for 2A currents in both scenarios?
Transcribed Image Text:Section 1 Introduction / Transformers Sometimes shell type transformers are formed by combining two sections, the sections can be seen in the scenario 2. In this problem a comparison is required to judge how much magnetic flux differentiate in both scenarios i.e., when the sections are tightly joined (scenario 1) and when there is an air gap created. The scenarios shown below, all dimensions are clearly specified. N is your Registration number. The question parts are Relative Permeability 4000 2.5cm 2.5cm 2.5cm 2.5cm 0.5cm Air Gap 30cm 25cm 2.5cm Air gap fringing affects incearse area by 10 % 50cm Depth = 10cm Scenario 1 Scenario 2 a) Draw the equivalent circuit for scenario 1 and calculate the equivalent reluctance. b) Draw the equivalent circuit for scenario 2 and calculate the equivalent reluctance. c) What will be the net magnetic flux flowing through the for 2A currents in both scenarios?
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