3-EM Induction.Notebook

3EM Induction.notebook May 08, 2014

Induced EMF and Induced Current

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Notice: There is NO BATTERY in the secondary circuit!

It is the changing field that produces the current. ΔB I

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The current in the coil is called the induced current because it is brought about by a changing magnetic field.

Since a source emf is always needed to produce a current, the coil behaves as if it were a source of emf. This emf is known as the induced emf.

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An emf can be induced by changing the area of a coil in a constant magnetic field.

ΔA I

In each example, both an emf and a current are induced because the coil is part of a complete circuit. If the circuit were open, there would be no induced current, but there would be an induced emf.

The phenomena of producing an induced emf with the aid of a magnetic field is called electromagnetic induction.

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Motional Emf THE EMF INDUCED IN A MOVING CONDUCTOR

FB = q v x B

Notice that as this rod moves, charges separate, and an emf is induced in the rod.

The separated charges on the ends of the conductor give rise to an induced emf, called a motional emf. If you stop moving, you stop the emf.

From where is this energy coming?

answer: the hand (which is like the battery in a "normal" circuit

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Motional Emf

calculating motional emf :

Motional emf when v, B, and L are mutually perpendicular

E = v B L (on formula sheet) (really: E = v x B L)

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Motional Emf

2. Near San Francisco, where the vertically downward component of the earth's magnetic field is 4.8 x 105 T , an emf of 2.4 x 103 V is induced between the sides of the car. (a) Which side of the car is positive (driver's or passengers)? (b) What is the width of the car?

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Motional Emf 5. The drawing shows three identical rods (A, B, and C) moving in different planes. A constant magnetic field of magnitude 0.45 T is directed along the +y axis. The length of each rod is L = 1.3 m, and the rods each have the same speed, va = vb= vc = 2.7 m/s. For each rod, find the magnitude of the motional emf, and indicate which end (1 or 2) of the rod is positive.

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Motional Emf R = 0.75 Ω

B = 0.50 T

v = 4.0 m/s

L = 1.3 m

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Motional Emf MOTIONAL EMF AND ELECTRICAL ENERGY

Lighting this bulb isn't free!

In order to keep the rod moving at constant velocity, the force the hand exerts on the rod must balance the magnetic force on the current: Fhand = FB = ILB

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answer: Magnetic Flux!!!

Do you know a name for this quantity?

E Hint: This quantity has to do with the amount of field lines going through an area.

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E * = ΔΦB E t Δ (on formula sheet)

* Usually you'll see this written with a "" sign before it. That negative sign says that the direction of the current induced in the circuit is such that the magnetic force acts on the rod to oppose its motion and slow it down.

ΔΦB Better way to write this: E = Δt Don't let the elegance of this fool you; this is the most sublime and profound things human beings have ever discovered!

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Electric Flux (flow) Measure of how much of the electric field penetrates (flows through) a given surface.

Remember this: Electric flux is proportional to the number of electric field lines going through a surface or area.

Smaller Flux Bigger Flux

The flux is proportional to the strength of the field.

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Smaller Flux Bigger Flux

The flux is proportional to the area of the surface.

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The flux is also proportional to how the area is oriented.

A Area is quantified as vector that Θ E points perpendicular to the surface, and is as large as the surface area of the surface.

For which angle of Θ do you get the most flux through a given surface area?

Would this be a cross product or a dot product idea?

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Calculating Electric Flux

ΦE = E A = E A cos Θ

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Magnetic Flux Magnetic flux is defined the same way as electric flux. Magnetic flux is proportional to both the strength of the magnetic field passing through the plane of a loop of wire and the area of the loop.

A A

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Calculating Magnetic Flux

ΦB = B A = B A cos Θ (on formula sheet, but they use φm)

Units: T m2 = Weber (Wb)

Wilhelm Eduard Weber 18041891 German

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17. A fivesided object, whose dimensions are shown in the drawing, is placed in a uniform magnetic field. The magnetic field has a magnitude of 0.25 T and points along the positive y direction. Determine the magnetic flux through each of the five sides.

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Faraday’s Law of Electromagnetic Induction

Michael Faraday Joseph Henry 17911867 17911878 British American

The usefulness of this idea is obvious!

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Faraday’s Law of Electromagnetic Induction If a circuit contains N tightly wound loops and the flux changes by ΔΦB during a time interval Δt, the average emf induced is given by Faraday’s Law:

ΔΦB Again, more profound E = N than 99.9% of the ideas t you've ever heard! Don't miss the Δ!

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Faraday’s Law of Electromagnetic Induction