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Chapter 21. Magnetic Force. Magnetic Field of a Moving Charge. The Biot-Savart law for a moving charge. The Biot-Savart law for a short piece of wire:. How magnetic field affects other charges?. Magnetic Force on a Moving Charge. TV and CRT monitors:.
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Chapter 21 Magnetic Force
Magnetic Field of a Moving Charge The Biot-Savart law for a moving charge The Biot-Savart law for a short piece of wire: How magnetic field affects other charges?
Magnetic Force on a Moving Charge TV and CRT monitors: Direction of the magnetic force depends on: the direction of B the direction of v of the moving charge the sign of the moving charge q – charge of the particle v – speed of the particle B – magnetic field
Right Hand Rule for Magnetic Force Electron charge = -e: The magnetic force on a moving electron is in opposite direction to the direction of the cross product
Effect of B on the Speed of the Charge What is the effect on the magnitude of speed? Kinetic energy does not change Magnetic field cannot change a particle’s energy! Magnetic field cannot change a particle’s speed! Magnetic force can only change the direction of velocity but not its magnitude
Magnitude of the Magnetic Force Move charged tape close to a magnet: can you detect the magnetic force? Single electron in television tube: (v<<c) e/me = 1.78.1011 C/kg q/m for charged tape: (10-8 C)/(10-4 kg) 10-4 C/kg
Exercise Net charge on invisible tape is ~ 10-8 C Magnetic field near your bar magnet is ~0.1 T What is the force on tape if the tape is moved in the direction perpendicular to the field with a speed of 10 m/s ? Electric force between two charged tapes 10 cm apart:
Motion in a Magnetic Field What if we have large (infinite) area with constant Bv Confined area: deflection
Circular Motion at any Speed Any rotating vector: …angular speed Cyclotron Frequency
Circular Motion at Low Speed if v<<c: independent of v! Alternative derivation: Circular motion: Period T: Non-Relativistic
Determining the Momentum of a Particle valid even for relativistic speeds Position vector r: Circular motion Used to measure momentum in high-energy particle experiments
Joseph John Thomson (1856-1940) 1897: m/e >1000 times smaller than H atom
Exercise What if v is not perpendicular to B? Direction? Magnitude? Trajectory: helix
The Lorentz Force Can combine electric and magnetic forces: Coulomb law and Biot-Savart law have coefficients 1/(40) and 0/(4) to make the field and force equations consistent with each other
A Velocity Selector E FE FB B Is it possible to arrange E and B fields so that the total force on a moving charge is zero? What if v changes?
A negative charge is placed at rest in a magnetic field as shown below. What is the direction of the magnetic force on the charge? B 73 of 140 0 • Up • Down • Into the page • Out of the page • No force at all.
A negatively charged particle is moving horizontally to the right in a uniform magnetic field that is pointing in the same direction as the velocity. What is the direction of the magnetic force on the charge? 72 of 140 0 • Up • Down • Into the page • Out of the page • No force at all. B
Now, another negatively charged particle is moving upward and to the right in a uniform magnetic field that points in the horizontal direction. What is the direction of the magnetic force on the charge? B 70 of 140 0 • Left • Up • Down • Into the page • Out of the page
Magnetic Force on a Current-carrying Wire Current:many charges are moving Superposition: add up forces on individual charges Number of moving charges in short wire: I Total force: Force of a short wire: In metals: charges q are negative. Will this equation still work?
Hall Effect v B ???? - + When does it reach equilibrium? E h V>0
Hall Effect for Opposite Charges E E v v B B >0 ???? V>0 - - + + V<0
Hall Effect Edwin Herbert Hall (1855 - 1938) By measuring the Hall effect for a particular material, we can determine the sign of the moving particles that make up the current
Hall Effect in a Metal What is the magnitude of the Hall effect in a metal? V Measure know the charge (e) Then we can find n Monovalent metals:n is the same as # of atoms per m3 Some metals:n is larger than # of atoms per m3
Clicker Question • Voltmeter 1 reading is POSITIVE • Voltmeter 2 reading is POSITIVE • Mobile charges are: • A) Positive (holes) • B) Negative (electrons) • C) Not enough information