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As You Come In… Write down 3 things you already know about magnetism.
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Field Behaviors Charged particles behave certain ways when placed in certain fields For stationary particle: Gravitational field: moves toward a mass electron g FgFg
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Field Behaviors Charged particles behave certain ways when placed in certain fields For stationary particle: Gravitational field: moves toward a mass Electrical field: moves toward an opposite charge or away from like charge electron E --------------- +++++++++++++++ FEFE
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S Field Behaviors Charged particles behave certain ways when placed in certain fields For stationary particle: Gravitational field: moves toward a mass Electrical field: moves toward an opposite charge or away from like charge Magnetic field: doesn’t move at all electron B N
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Field Behaviors electron g FgFg Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass v
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors g Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge electron FEFE v
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors E --------------- +++++++++++++++ Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N electron v
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge S B N
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Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge Magnetic field: moves outward?????? S B N
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S Field Behaviors Now take the case of a moving particle For moving particle: Gravitational field: still moves toward a mass Electrical field: still moves toward an opposite charge or away from like charge Magnetic field: moves outward?????? B FBFB N electron v
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S Force Equations Gravitational force: F g = mg Electrical force: F E = qE Magnetic force (Lorentz force): F B = qv × B B FBFB N electron v
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S Cross Product Recap Recall that v 1 × v 2 is a cross product Product is a vector—has magnitude and direction Finding magnitude: ǁv 1 × v 2 ǁ = v 1 v 2 sin(δ) If δ = 90°, simplifies to ǁv 1 × v 2 ǁ = v 1 v 2 Finding direction: Right-hand Rule B FBFB N electron v
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S Finding Magnetic Force Magnetic force: F B = qv × B Magnitude of F B ǁqv × Bǁ = qvBsin(δ) If δ = 90°, simplifies to ǁqv × Bǁ = qvB Direction of F B Right-hand Rule B FBFB N electron v
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Finding Magnetic Force Magnetic force: F B = qv × B Magnitude of F B ǁqv × Bǁ = qvBsin(δ) If δ = 90°, simplifies to ǁqv × Bǁ = qvB Direction of F B Right-hand Rule Fingers are magnetic field lines Thumb is velocity of particle Force is palm of hand Fingers: B Thumb: v Palm: F (facing inward) Wait a sec…wasn’t the force directed outward before???
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Charge and Sign Conventions Charge of particle affects direction of force Positive charge: force points according to right-hand rule Negative charge: force points in opposite direction of right-hand rule Alternative: Positive charges: right-hand rule Negative charges: left-hand rule Fingers: B Thumb: v Palm: F (facing inward)
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About Magnetic Fields Nikola Tesla Image obtained from: http://en.wikipedia.org/wiki/Nikola_Tesla
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About Magnetic Fields Cool magnetic field intensities to know: 0.5 pT: average B of human brain 45 µT: average B of Earth’s magnetosphere 5 mT: average B of refrigerator magnet 1.25 T: B of strongest rare-earth magnet 2 T: average B of medical MRI machinesMRI machines 16 T: B used to levitate 25 g frog 45 T: strongest continuous B field ever produced Carl Friedrich Gauss Image obtained from: http://www.notablebiographies.com/images/uewb_04_img0294.jpg
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Tweaking the Lorentz Force l B I
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Currents & Magnetic Force Magnetic force on a current-carrying wire: F B = l I × B Magnitude of F B ǁ l I × Bǁ = l I Bsin(δ) If δ = 90°, simplifies to ǁ l I × Bǁ = l I B Direction of F B Right-hand Rule Fingers are magnetic field lines Thumb is direction of current Force is palm of hand l I B FBFB
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