Please show the derivation of the formulas!
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Please show the derivation of the formulas!
Coil 1 has L1 = 25 mH and N1...
Coil 1 has L1 = 40 mH and N1 = 101 turns. Coil 2 has L2...
Coil 1 has L1 = 40 mH and N1 = 101 turns. Coil 2 has L2 = 41 mH and N2 = 234 turns. The coils are fixed in place; their mutual inductance M is 5.6 mH. A 6.1 mA current in coil 1 is changing at the rate of 4.4 A/s. (a) What magnetic flux Φ12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux Φ21 links coil 2, and (d) what...
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2...
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2 = 68 mH and M2 = 227 turns. The coils are fixed in place; their mutual inductance M is 3.6 mH. A 8.0 mA current in coil 1 is changing at the rate of 4.8 A/s. (a) What magnetic flux D12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux D21 links coil 2, and (d) what...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2 has L2 = 68 mH and N2 = 234 turns. The colls are fixed in place; their mutual inductance M is 5.2 mH. A 6.8 A current in coil 1 is changing at the rate of 6.0 A/s a w at magnetic flux Φ12 lin 1, and (b) what self-induced emf appears in that col? (c) Wh t magnetic flux Φ21 links coil 2,...
LI and L2 are two coils with 800 turns and 1500 turns respectively. It is found...
LI and L2 are two coils with 800 turns and 1500 turns respectively. It is found that 55 % of the flux produced by coil L1 links with the coil L2. A current of 7A in coil LI produces 60u Wb ; while a current of 3A in coil L2 produces 30 Wb. Determine: a. The mutual inductance b. The self- inductances
A coil has 460 turns and self-inductance 7.50 mH. The current in the coil varies with...
A coil has 460 turns and self-inductance 7.50 mH. The current in the coil varies with time according to i=(680mA)cos[πt/(0.0250s)]. What is the maximum emf induced in the coil? What is the maximum average flux through each turn of the coil? At t=0.0180 s, what is the magnitude of the induced emf?
10. A coil has 400 turns and self-inductance 4.80 mH. The current in the coil varies...
10. A coil has 400 turns and self-inductance 4.80 mH. The current in the coil varies with time according to i=(680mA)cos(att/0.0250s). (a) What is the maximum emf induced in the coil? (b) What is the maximum average flux through each turn of the coil? (c) At t= 0.0180 s, what is the magnitude of the induced emf?
(5pts) Self-inductance (L) ofacoil is defined as the constant ofproporto nality between the coil current (i)...
(5pts) Self-inductance (L) ofacoil is defined as the constant ofproporto nality between the coil current (i) and the flux (NO) linking the coil (ie, 1 = NO, and (iii) so, by Paraday's law, voltage in the coLUse any one of these relationships to find the self-inductance of the solenoid (Show working for full grade) Self-inductance (L) (iv) A second coil of 25 turns is tightly wound around the middle section of the solenoid, such that the flux generated by the...
a. A coil of wire with 209 circular turns of radius 3.10 cm is in a...
a. A coil of wire with 209 circular turns of radius 3.10 cm is in a uniform magnetic field along the axis of the coil. The coil has R = 41.5 Ω . At what rate, in teslas per second, must the magnetic field be changing to induce a current of 0.149 A in the coil? b. A closely wound rectangular coil of 90.0 turns has dimensions of 30.0 cm by 47.0 cm . The plane of the coil is...
Part 2 Please do both examples I will rate Exercise 12 The magnetic circuit has A-12...
Part 2
Please do both examples I will rate
Exercise 12 The magnetic circuit has A-12 cm2; -50m, 20000; N, - 500 turns, N-1000 tums First part The reluctance of the magnetic circuit is: R- The magnetic flux due to the currently is 4- NA R The flux linkages of the two coils are: NA A NA The self-inductance of collis 42,14 The mutual inductance is Second part Similar to first part Figure 25: Circuit for problem 12 (a) The...
1)A solenoidal coil with 22 turns of wire is wound tightly around another coil with 350...
1)A solenoidal coil with 22 turns of wire is wound tightly around another coil with 350 turns. The inner solenoid is 25.0 cm long and has a diameter of 2.30 cm . At a certain time, the current in the inner solenoid is 0.110 A and is increasing at a rate of 1600 A/s . a)For this time, calculate the average magnetic flux through each turn of the inner solenoid. b)For this time, calculate the mutual inductance of the two...
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2 = 68 mH and M2 = 227 turns. The coils are fixed in place; their mutual inductance M is 3.6 mH. A 8.0 mA current in coil 1 is changing at the rate of 4.8 A/s. (a) What magnetic flux D12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux D21 links coil 2, and (d) what...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2 has L2 = 68 mH and N2 = 234 turns. The colls are fixed in place; their mutual inductance M is 5.2 mH. A 6.8 A current in coil 1 is changing at the rate of 6.0 A/s a w at magnetic flux Φ12 lin 1, and (b) what self-induced emf appears in that col? (c) Wh t magnetic flux Φ21 links coil 2,...
LI and L2 are two coils with 800 turns and 1500 turns respectively. It is found that 55 % of the flux produced by coil L1 links with the coil L2. A current of 7A in coil LI produces 60u Wb ; while a current of 3A in coil L2 produces 30 Wb. Determine: a. The mutual inductance b. The self- inductances
10. A coil has 400 turns and self-inductance 4.80 mH. The current in the coil varies with time according to i=(680mA)cos(att/0.0250s). (a) What is the maximum emf induced in the coil? (b) What is the maximum average flux through each turn of the coil? (c) At t= 0.0180 s, what is the magnitude of the induced emf?
(5pts) Self-inductance (L) ofacoil is defined as the constant ofproporto nality between the coil current (i) and the flux (NO) linking the coil (ie, 1 = NO, and (iii) so, by Paraday's law, voltage in the coLUse any one of these relationships to find the self-inductance of the solenoid (Show working for full grade) Self-inductance (L) (iv) A second coil of 25 turns is tightly wound around the middle section of the solenoid, such that the flux generated by the...
Part 2
Please do both examples I will rate
Exercise 12 The magnetic circuit has A-12 cm2; -50m, 20000; N, - 500 turns, N-1000 tums First part The reluctance of the magnetic circuit is: R- The magnetic flux due to the currently is 4- NA R The flux linkages of the two coils are: NA A NA The self-inductance of collis 42,14 The mutual inductance is Second part Similar to first part Figure 25: Circuit for problem 12 (a) The...
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