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Today’s agenda: Magnetic Field Due To A Current Loop. You must be able to apply the Biot-Savart Law to calculate the magnetic field of a current loop.

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Presentation on theme: "Today’s agenda: Magnetic Field Due To A Current Loop. You must be able to apply the Biot-Savart Law to calculate the magnetic field of a current loop."— Presentation transcript:

1 Today’s agenda: Magnetic Field Due To A Current Loop. You must be able to apply the Biot-Savart Law to calculate the magnetic field of a current loop. Ampere’s Law. You must be able to use Ampere’s Law to calculate the magnetic field for high-symmetry current configurations. Solenoids. You must be able to use Ampere’s Law to calculate the magnetic field of solenoids and toroids. You must be able to use the magnetic field equations derived with Ampere’s Law to make numerical magnetic field calculations for solenoids and toroids.

2 Magnetic Field of a Solenoid A solenoid is made of many loops of wire, packed closely* together. Here’s the magnetic field from a loop of wire: Some images in this section are from hyperphysics. hyperphysics *But not so closely that you can use

3 Stack many loops to make a solenoid: Ought to remind you of the magnetic field of a bar magnet.

4 You can use Ampere’s law to calculate the magnetic field of a solenoid.                                               B I     l N is the number of loops enclosed by our surface.

5                                               B I     l Magnetic field of a solenoid of length l, N loops, current I. n=N/ l (number of turns per unit length). The magnetic field inside a long solenoid does not depend on the position inside the solenoid (if end effects are neglected).

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