Unit 7: Part 1 Electric Charge, Forces, and Fields
Jan 14, 2016
Unit 7: Part 1Electric Charge, Forces, and
Fields
Outline
Electric Charge
Electrostatic Charging
Electric Force
Electric Field
Conductors and Electric Fields
Gauss’s Law for Electric Fields: A Qualitative Approach
Electric Charge
Electric charge is a fundamental property of matter; electric charges may be positive or negative.
The atom consists of a small positive nucleus surrounded by a negative electron cloud.
Electric Charge
Like charges repel; unlike charges attract.
Electric Charge
SI unit of charge: the coulomb, C. All charges are integer multiples of the charge on the electron:
Electric Charge
Charge is conserved:
The net charge of an isolated system remains constant.
Electrostatic Charging
Conductors transmit charges readily.
Semiconductors are intermediate; their conductivity can depend on impurities and can be manipulated by external voltages.
Insulators do not transmit charge at all.
Electrostatic ChargingAn electroscope may be used to determine if an object is electrically charged.
Electrostatic Charging
Charging by friction: This is the process by which you get “charged up” walking across the carpet in the winter. It is also the process that creates “static cling” in your laundry, and makes it possible for you to rub a balloon on your hair and then stick the balloon to the wall.
Electrostatic Charging
An electroscope can be given a net charge by conduction—when it is touched with a charged object, the excess charges flow freely onto the electroscope.
Electrostatic Charging
An electroscope may also be charged by induction, if there is a way of grounding it while charge is being induced.
Electrostatic Charging
Charge may also be moved within an object—without changing its net charge—through a process called polarization.
Electric ForceThe force exerted by one charged particle on another is given by:
Electric Force
If there are multiple point charges, the force vectors must be added to get the net force.
Electric Field
Definition of the electric field:
The direction of the field is the direction the force would be on a positive charge.
Electric FieldCharges create electric fields, and these fields in turn exert electric forces on other charges.
Electric field of a point charge:
Electric FieldFor multiple charges, the total electric field is found using the superposition principle:For a configuration of charges, the total, or net, electric field at any point is the vector sum of the electric fields due to the individual charges.
Electric Field
It is convenient to represent the electric field using electric field lines, or lines of force. These lines are drawn so the field is tangent to the line at every point.
Electric Field
Rules for drawing electric field lines:
1. Closer lines mean a stronger field.
2. The field is tangent to the lines at every point.
3. Field lines start on positive charges and end on negative charges.
4. The number of lines entering or leaving a charge is proportional to the magnitude of the charge.
5. Field lines never cross.
Electric FieldElectric field lines of a dipole:
Electric Field
Electric field lines due to very large parallel plates:
Electric Field
Electric field lines due to like charges: (a) equal charges; (b) unequal charges.
Conductors and Electric Fields
Electric charges are free to move within a conductor; therefore, there cannot be a static field within the conductor:
The electric field is zero inside a charged conductor.
Excess charges on a conductor will repel each other, and will wind up being as far apart as possible.Any excess charge on an isolated conductor resides entirely on the surface of the conductor.
Conductors and Electric Fields
There cannot be any component of the electric field parallel to the surface of a conductor; otherwise charges would move.The electric field at the surface of a charged conductor is perpendicular to the surface.
Conductors and Electric Fields
The force from neighboring charges is less when the curvature of the surface is large:
Excess charge tends to accumulate at sharp points, or locations of highest curvature, on charged
conductors. As a result, the electric field is greatest at such locations.
Gauss’s Law for Electric Fields: A Qualitative Approach
A surface, called a Gaussian surface, that completely surrounds a point charge intercepts the same number of field lines regardless of its shape. For a positive charge, the lines exit the surface; for a negative one they enter it.
Gauss’s Law for Electric Fields: A Qualitative Approach
If a greater amount of charge is enclosed, more field lines cross the surface.
Gauss’s Law for Electric Fields: A Qualitative Approach
Here, surface 1 surrounds the positive charge and has lines exiting it. Surface 2 surrounds the negative charge and has lines entering it. Surface 3 does not enclose any charge, and the same number of lines exit as enter.
Surface 4 encloses both charges; as they are equal in magnitude, the same number of lines exit the surface as enter it.
Gauss’s Law for Electric Fields: A Qualitative Approach
The underlying physical principle of Gauss’s law:The net number of electric field lines passing through an imaginary closed surface is proportional to the amount of net charge enclosed within that surface.
This can be used to show that excess charge on a conductor must reside on the surface.
Summary
Like charges repel; unlike charges attract.
Charge is conserved.
Electrons move freely inside conductors, but not inside insulators.
Objects may be charged electrostatically by friction, conduction, or induction.
Polarization is the separation of positive and negative charge within an object.
Summary
Coulomb’s law:
The electric field, a vector, is the force per unit charge. Electric fields from multiple charges add by superposition.
Electric field lines are used to represent the electric field.
A conductor has zero electric field inside and has all excess charge on its surface.
Summary
The electric field is always perpendicular to the surface of a conductor.
The charge density and electric field are greatest on a conductor where the curvature is largest.