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COULOMB FORCE Charge q1 “Test Charge” q2 r 1,2 1,2 1,2 “Is action at a distance possible?” Question: How can q1 sense q2 without direct contact? NO! just as air around us, there’re some medium around a charge, the electric field that transfers the force.
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READING QUIZ 1 HOW DOES THE MAGNITUDE OF THE ELECTRIC FIELD E
FROM A POINT CHARGE Q DEPEND ON THE MAGNITUDE OF Q AND THE DISTANCE R TO THE FIELD POINT? E = k Q Q / R2 E = k Q / R E = k Q / R2 E = k Q Q / R E = k Q / R3
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Electric Field Define electric field, which is independent of the test charge, q2 , and depends only on position in space: Electric Field due to a Point Charge Q
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A visualization tool to illustrate the geometry of an electric field.
Electric Field Lines A visualization tool to illustrate the geometry of an electric field. Electric field lines originate from positive charges and terminates at negative charges. The direction of the electric field at any location is tangential to the field line there. The magnitude of the electric field at any location is proportional to the density of the lines there. (or at infinity) # lines/area ~ 1/r2 ~ |E|
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Electric Field A Vector field
With this concept, we can “map” the electric field anywhere in space A Vector field 77 82 83 68 55 66 75 80 90 91 71 72 84 73 57 88 92 56 64
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Demonstration Vandegraaff Generator
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Electric field lines of two charges of equal magnitude
dipole Field lines do NOT cross They do NOT come out of nowhere or vanish into a point. Far from the charges, electric field lines resemble those of a point charge.
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Two charges of the same magnitude
Both charges > 0 One is > 0, the other < 0 -q q electric dipole of dipole moment: if |qL|>|qR| if |qR|>|qL|
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Electric field lines of two unequal charges
Far from charges, the field lines are as if they are due to a point charge of +2q-q=+q # lines proportional to the magnitude of charge
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©2008 by W.H. Freeman and Company
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Electric Field due to Multiple Point Charges
The force on a test charge is then given by so the electric field is, by definition, given by Principle of Superposition!
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( Sum symbol Σ ) E = F/qO Σ Fx = 3.97 x 10-7 N Σ Fy = x 10-7 N F2 = Fx2 + Fy2 = (4.84 x 10-7 N)2 Tan Θ = Fy /Fx = O
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Warm-up quiz 2 What is the direction of the electric field at the center of the two point charges? (Take Q > 0.) toward the lower right toward the upper left upward to the right none of the above -Q Q
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Point Charge in an external Electric Field
Electrostatic force on the charge q due to E: E acting on the charge is produced by the other charges (external field). Dimension of E = [force]/[charge] and its SI units = N/C Work done by E on q in moving the charge: F is parallel to E if the charge is positive and anti-parallel if the charge is negative The charge is not affected by its own electric field. W is path(A,B )-independent => Conservative force
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Dynamics of a charged Mass in an Electric field
Demonstration Dynamics of a charged Mass in an Electric field DEMO 5A10
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Dynamics of a Charged Mass in Electric Field
For -Q<0 in uniform E downward: -Q Oscilloscope Ink-Jet Printing vy = at = qE/m t vx >>0 Oil drop experiment
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The Electric Dipole Along the + z-axis
Where p=qd is the magnitude of the dipole moment. The electric dipole is a vector in the direction from –q to +q. Let d 0 keep qd constant.This a point dipole
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Dipole in a uniform external electric field
No net force. The electrostatic forces on the constituent point charges are of the same magnitude but along opposite directions. So, there is no net force on the dipole and thus its center of mass should not accelerate. Net torque! There is clearly a net torque acting on the dipole with respect to its center of mass, since the forces are not aligned. Clockwise about the center of mass
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Torque on the Dipole x q F CM The magnitude of the torque: The torque points into the screen.
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Electric Dipoles Typical dipole consists of positive and negative charges slightly displaced. General definition of dipole moments exists: Water molecule can be thought of as consisting of 2 standard dipoles at an angle to each other. Net neutral molecules can have electrical dipole moments Permanent dipole moment (polar) vs. induced dipole moment
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Physics 241 – 9:30 Quiz – January 13, 2011
Three point charges are arranged at three of the corners of a square as shown. What is the direction of the electric field at the center of the square? (Take Q > 0.) toward the lower right toward the upper left upward to the right none of the above Q Q Q
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Physics 241 – 10:30 Quiz 3 – January 13, 2011
Four point charges are arranged at the corners of a square as shown. What is the direction of the electric field at the center of the square? (Take Q > 0.) toward the lower right toward the upper left upward to the right none of the above -Q - Q Q Q
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Physics 241 – 11:30 Quiz 3 – January 13, 2011
Four point charges are arranged at the corners of a square as shown. What is the direction of the electric field at the center of the square? (Take Q > 0.) toward the lower right toward the upper left upward to the right none of the above Q - Q Q Q
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