The self-inductances of the coils in Fig. 6.30 given below are L 1=25 [mH] and L3=100 [mHJ. If the coefficient of coupling is 1.0, then do the following problems. a) If i equals 10 A, what value of iz results in zero stored energy? b) Is there any physically realizable value of iz that can make the stored energy negative? M Figure 6.30 A The circuit used to derive the basic energy relationships.
The self-inductances of the coils in Fig. 6.30 given below are L 1=25 [mH] and L3=100 [mHJ. If the coefficient of coupling is 1.0, then do the following problems. a) If i equals 10 A, what value of iz results in zero stored energy? b) Is there any physically realizable value of iz that can make the stored energy negative? M Figure 6.30 A The circuit used to derive the basic energy relationships.
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![The self-inductances of the coils in Fig. 6.30 given below are L 1=25 [mH] and L2=100 [mH]. If the
coefficient of coupling is 1.0, then do the following problems.
a) If i equals 10 A, what value of i, results in zero
stored energy?
b) Is there any physically realizable value of i, that
can make the stored energy negative?
M
L2
V2
Figure 6.30 A The circuit used to derive the basic
energy relationships.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5362cbea-9427-4b2b-99cb-57a208edd853%2F929bc912-585d-4958-bb3c-19d67b4f7f64%2Ftve7vrg_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The self-inductances of the coils in Fig. 6.30 given below are L 1=25 [mH] and L2=100 [mH]. If the
coefficient of coupling is 1.0, then do the following problems.
a) If i equals 10 A, what value of i, results in zero
stored energy?
b) Is there any physically realizable value of i, that
can make the stored energy negative?
M
L2
V2
Figure 6.30 A The circuit used to derive the basic
energy relationships.
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