A toroid whose magnetic field is 3 x 10-2 T has a current of 2.0 A....
A toroid whose magnetic field is 3 x 10-2 T has a current of 2.0 A. If the magnetic field was determined at a distance of 1.5 cm, find the number of turns of wiring that the toroid has.
Homework Answers
Number off turns of wiring
will be 4500 as per calculation.Add Answer to:
A toroid whose magnetic field is 3 x 10-2 T has a current of 2.0
A....
A magnetic field in the center of a solenoid has a magnitude of 3.5 x 10-2...
A magnetic field in the center of a solenoid has a magnitude of 3.5 x 10-2 T was generated by an unknown current. The length of the solenoid is 1.5 m and it has 950 turns of wiring. Determine the current.
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole...
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius isr= 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is b = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1Txm2). What is the magnitude of the electric potential energy of the magnetic dipole in this field?
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole...
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius is r = 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is 03 = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1 Txm?). What is the magnitude of the electric potential energy of the magnetic dipole...
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole...
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius is r = 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is OB = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1 Txm2). What is the magnitude of the electric potential energy of the magnetic dipole...
A solenoid of length L = 10 m carrying a current I = 9 A has a magnetic field of 2 x 10-5 T
A solenoid of length L = 10 m carrying a current I = 9 A has a magnetic field of 2 x 10-5 T. Calculate the number of turns.
1.) The inner and outer radii of a toroid are 1.50 cm and 3.30 cm. The...
1.) The inner and outer radii of a toroid are 1.50 cm and 3.30 cm. The toroid has 61 turns and carries a current of 2.20 A. What are the strongest and weakest magnetic fields produced by this toroid? (Enter the magnitudes.) T(strongest): T(weakest): 2.) The magnitude of the magnetic field at the center of a 23.0-cm-long solenoid with 600.0 turns is 2.10 mT. What is the current in the windings of the solenoid?
A toroid has an inside diameter of 40.0 cm and an outside diameter of 45.0 cm....
A toroid has an inside diameter of 40.0 cm and an outside diameter of 45.0 cm. It conducts a current of 30.0 A in its 700 turns. The magnetic field at a distance of 42 cm from its center is: a. 50 mT b.30 mT c.20 mT d.10 mT
4.) For the slidewire generator below, the magnetic field is a constant 2.0 T into the...
4.) For the slidewire generator below, the magnetic field is a constant 2.0 T into the page, the length L is 0.50 m and the conducting slidewire moves at 5.5 m/s. The total resistance of the circuit is R=1.5 Ω. a.) Find the induced current (7 pts). b.) How much power is dissipated? (6 pts) c.) In what direction does the induced current flow? (3 pts) A current carrying circular loop with N-50 turns rotates in a 2.0 T magnetic...
3. (20 points) A toroid has a radius of 0.5 m and cross sectional area 104...
3. (20 points) A toroid has a radius of 0.5 m and cross sectional area 104 m2. The total number of turns of wire is N- 1 our SI units, 000. The current in the wire is 1-0.01 sin (100 π t). μο-4 π 10"in a) Find the magnetic field B(t) inside the toroid. b) Find the magnetic flux >B () inside the toroid c) Express the induced voltage on one turn of the wire,in terms of dldt. What is...
Q1. A magnetic field points perpendicularly into a 2.0 cm x 4.0 cm rectangular coil with...
Q1. A magnetic field points perpendicularly into a 2.0 cm x 4.0 cm rectangular coil with 120 turns and 0.25 Ω total resistance. At a certain instant, the magnetic field strength is 0.22 T and it is increasing at a rate of 2.5 T/s a) The induced current in the coil is a. clockwise. b. counter clockwise. b) Calculate the instantaneous induced current in the coil.
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius isr= 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is b = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1Txm2). What is the magnitude of the electric potential energy of the magnetic dipole in this field?
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius is r = 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is 03 = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1 Txm?). What is the magnitude of the electric potential energy of the magnetic dipole...
A magnetic field whose magnitude is B = 1.66 T impinges on a circular magnetic dipole of 100 turns, carrying a current of 3.33 A, whose radius is r = 2.66 cm. Because the magnetic dipole moment is rotated with respect to the field, the magnetic flux through the dipole is OB = 2.64 x 10-3 Wb. (Wb is the abbreviation for 1 Weber = 1 Txm2). What is the magnitude of the electric potential energy of the magnetic dipole...
4.) For the slidewire generator below, the magnetic field is a constant 2.0 T into the page, the length L is 0.50 m and the conducting slidewire moves at 5.5 m/s. The total resistance of the circuit is R=1.5 Ω. a.) Find the induced current (7 pts). b.) How much power is dissipated? (6 pts) c.) In what direction does the induced current flow? (3 pts) A current carrying circular loop with N-50 turns rotates in a 2.0 T magnetic...
3. (20 points) A toroid has a radius of 0.5 m and cross sectional area 104 m2. The total number of turns of wire is N- 1 our SI units, 000. The current in the wire is 1-0.01 sin (100 π t). μο-4 π 10"in a) Find the magnetic field B(t) inside the toroid. b) Find the magnetic flux >B () inside the toroid c) Express the induced voltage on one turn of the wire,in terms of dldt. What is...
Q1. A magnetic field points perpendicularly into a 2.0 cm x 4.0 cm rectangular coil with 120 turns and 0.25 Ω total resistance. At a certain instant, the magnetic field strength is 0.22 T and it is increasing at a rate of 2.5 T/s a) The induced current in the coil is a. clockwise. b. counter clockwise. b) Calculate the instantaneous induced current in the coil.
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