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The Electric Dipole -q +q d An electric dipole consists of two equal and opposite charges (q and -q ) separated a distance d.

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Presentation on theme: "The Electric Dipole -q +q d An electric dipole consists of two equal and opposite charges (q and -q ) separated a distance d."— Presentation transcript:

1 The Electric Dipole -q +q d An electric dipole consists of two equal and opposite charges (q and -q ) separated a distance d.

2 The Electric Dipole -q +q d We define the Dipole Moment p magnitude = qd, p direction = from -q to +q p

3 The Electric Dipole -q +q E  d Suppose the dipole is placed in a uniform electric field (i.e., E is the same everywhere in space). Will the dipole move ??

4 The Electric Dipole -q +q E  d What is the total force acting on the dipole?

5 The Electric Dipole -q +q F- F+ E  d What is the total force acting on the dipole?

6 The Electric Dipole -q +q F- F+ E  d What is the total force acting on the dipole? Zero, because the force on the two charges cancel: both have magnitude qE. The center of mass does not accelerate.

7 The Electric Dipole -q +q F- F+ E  d What is the total force acting on the dipole? Zero, because the force on the two charges cancel: both have magnitude qE. The center of mass does not accelerate. But the charges start to move. Why?

8 -q-q +q+q F- F+ E  d What is the total force acting on the dipole? Zero, because the force on the two charges cancel: both have magnitude qE. The center of mass does not accelerate. But the charges start to move (rotate). Why? There’s a torque because the forces aren’t colinear and aren’t acting exactly at the center of mass.

9 -q-q +q F- F+  d d sin  The torque is:   magnitude of force) (moment arm)   (2qE)(d sin  qE dsin  and the direction of  is (in this case) into the page

10 but we have defined : p = q d and the direction of p is from -q to +q Then the torque can be written as:   p x E  = p E sin  -q +q+q  d p E    qE dsin 

11 Field Due to an Electric Dipole at a point x straight out from its midpoint Electric dipole moment p = qd E+E+ d +q -q x l E-E- E  X Y Calculate E as a function of p, x,and d

12 E+E+ d +q -q x l E-E- E  X Y You should be able to find E at different points around a dipole where symmetry simplifies the problem.

13 Torque on a Dipole in an Electric Field (another version of the derivation)

14 A Dipole in an Electric Field

15 4. In which configuration, the potential energy of the dipole is the greatest? E a b c de

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