physics exam 2 (ch 5,7-10)
equipotential line
2D representation of an equipotential surface
coulomb's law
F12 (r) = k x (q1 q2) / r12^2
ampere (amp)
SI unit for current; 1A=1C/s
SQUID
Superconducting Quantum Interference Device device that is a very sensitive magnetometer, used to measure extremely subtle magnetic fields
permittivity of vacuum
aka Permittivity of free space; constant describing the strength of the electric force in a vacuum
loop rule
algebraic sum of changes in potential around any closed circuit path (loop) must be zero
electrostatic force
amount and direction of attraction or repulsion between two charged bodies; the assumption is that the source charges remain motionless
linear charge density
amount of charge in an element of a charge distribution that is essentially one-dimensional (width and height are much much smaller than length); its units are C/m
volume charge density
amount of charge in an element of a three-dimensional charge distribution; its units are C/m^3
surface charge density
amount of charge in an element of a two-dimensional charge distribution (thickness is small); its units are C/m^2
capacitance
amount of charge stored per unit volt
internal resistance
amount of resistance to the flow of current within the voltage source
static electricity
buildup of electric charge on the surface of an object; the arrangement of the charge remains constant ("static")
voltage
change in potential energy of a charge moved from one point to another, divided by the charge; units of potential difference are J/C --> volt
induced surface charges
charges that occur on a dielectric surface due to its polarization
RD circuit
circuit that contains both a resistor and a capacitor
circuit
complete path that an electrical current travels along
series combination
components in a circuit arranged in a row one after the other in a circuit
parallel combination
components in a circuit arranged with one side of each component connected to one side of the circuit and the other sides of the components connected to the other side of the circuit
superposition
concept that states that the net electric field of multiple source charges is the vector sum of the field of each source charge calculated individually
dielectric strength
critical electrical field strength above which molecules in insulator begin to break down and the insulator starts to conduct
conventional current
current that flows through a circuit from the positive terminal of a battery through the circuit to the negative terminal of the battery
capacitor
device that stores electrical charge and electrical energy
potential difference
difference in electric potential between two points in an electric circuit, measured in volts
induced electric-dipole moment
dipole moment that a nonpolar molecule may acquire when it is placed in an electrical field
xerography
dry copying process based on electrostatics
resistance
electric property that impedes current; for ohmic materials, it is the ratio of voltage to current R = V/I
induced electrical field
electrical field in the dielectric due to the presence of induced charges
conduction electron
electron that is free to move away from its atomic orbit
ohm's law
empirical relation stating that the current I is proportional to the potential difference V; it is often written as V = IR, where R is the resistnace
electron-volt
energy given to a fundamental charge accelerated through a potential difference of one volt
electromotive force (emf)
energy produced per unit charge, drawn from a source that produces an electrical current
energy density
energy stored in a capacitor divided by the volume between the plates
dielectric constant
factor by which capacitance increases when a dielectric is inserted between the plates of a capacitor
electrostatic precipitators
filters that apply charges to particle in the air, then attract those charges to a filter, removing them from the airstream
infinite plane
flat sheet in which the dimensions making up the area are much, much greater than its thickness, and also much, much greater than the distance at which the field is to be calculated; its field is constant
current density
flow of charge through a cross-sectional area divided by the area
schematic
graphical representation of a circuit using standardized symbols for components and solid lines for the wire connecting the components
shock hazard
hazard in which an electric current passes through a person
thermal hazard
hazard in which an excessive electric current causes undesired thermal effects
ammeter
instrument that measures current
dielectric
insulating material used to fill the space between two plates
resistivity
intrinsic property of a material, independent of its shape or size, directly proportional to the resistance, denoted by p
Josephson junction
junction of two pieces of superconducting material separated by a thin layer of insulating material, which can carry a supercurrent
potential drop
loss of electric potential energy as a current travels across a resistor, wire, or other component
Van de Graaff generator
machine that produces a large amount of excess charge, used for experiments with high voltage
conductor
material that allows electrons to move separately from their atomic orbits; object with properties that allow charges to move about freely within it
insulator
material that holds electrons securely within their atomic orbits
electrical conductivity
measure of a material's ability to conduct or transmit electricity
law of conservation of charge
net electric charge of a closed system is constant
electric force
noncontact force observed between electrically charged objects
diode
nonohmic circuit device that allows current flow in only one direction
field line density
number of field lines per square meter passing through an imaginary area; its purpose is to indicate the field strength at different points in space
ohm
omega; unit of electrical resistance omega = 1V / A
electrostatic repulsion
phenomenon of two objects with like charges repelling each other
electrostatic attraction
phenomenon of two objects with opposite charges attracting each other
Meissner effect
phenomenon that occurs in a superconducting material where all magnetic fields are expelled
superconductivity
phenomenon that occurs in some materials where the resistance goes to exactly zero and all magnetic fields are expelled, which occurs dramatically at some low critical temp (Tc)
dielectric breakdown
phenomenon that occurs when an insulator becomes a conductor in a strong electrical field
electric field
physical phenomenon created by a charge; it transmits a force between two charges
electric charge
physical property of an object that causes it to be attracted toward or repelled from another charged object; each charged object generated and is influenced by a force called an electric force
terminal voltage
potential difference measured across the terminals of a source when there is no load attached
electric potential
potential energy per unit charge
electric potential energy
potential energy stored in a system of charged objects due to the charges
charging by induction
process by which an electrically charged object brought near a neutral object creates a separation in that object
grounding
process of attaching a conductor to the earth to ensure that there is no potential difference between it and Earth
dipole moment
property of a dipole; it characterizes the combination of distance between the opposite charges, and the magnitude of the charges
electric dipole moment
quantity defined as P = qd for all dipoles, where the vector points from the negative to positive charge
electrical current
rate at which charge flows I = dQ/dt
equivalent resistance
resistance of a combination of resistors; it can be thought of as the resistance of a single resistor that can replace a combination of resistors in a series and/or parallel circuit
Kirchhoff's rules
set of two rules governing current and changes in potential in an electric circuit
polarization
slight shifting of positive and negative charges to opposite sides of an object
ink jet printer
small ink droplets sprayed with an electric charge are controlled by electrostatic plates to create images on paper
field line
smooth, usually curved line that indicates the direction of the electric field
infinite straight wire
straight wire whose length is much, much greater than either of its other dimensions, and also much, much greater than the distance at which the field is to be calculated
photoconductor
substance that is an insulator until it is exposed to light, when it becomes a conductor
junction rule
sum of all currents entering a junction must equal the sum of all currents leaving the junction
equipotential surface
surface (usually in 3D) on which all points are at the same potential
electric dipole
system of 2 equal but opposite charges a fixed distance apart
parallel-plate capacitor
system of two identical parallel conducting plates separated by a distance
critical temperature
temp at which a material reaches superconductivity
electric potential difference
the change in potential energy of a charge q moved between two points, divided by the charge
electrical power
time rate of change of energy in an electric circuit
continuous charge distribution
total source charge composed of so large a number of elementary charges that it must be treated as continuous, rather than discrete
dipole
two equal and opposite charges that are fixed close to each other
nonohmic
type of a material for which Ohm's law is not valid
ohmic
type of a material for which Ohm's law is valid -> the voltage drop across the device is equal to the current times the resistance
permanent dipole
typically a molecule; a dipole created by the arrangement of the charged particles from which the dipole is created
induced dipole
typically an atom, or a spherically symmetric molecule; a dipole created due to opposite forces displacing the positive and negative charges
principle of superposition
useful fact that we can simply add up all of the forces due to charges acting on an object
drift velocity
velocity of a charge as it moves nearly randomly through a conductor, experiencing multiple collisions, averaged over a length of a conductor, whose magnitude is the length of conductor traveled divided by the time it takes for the charges to travel the length
three-wire system
wiring system used at present for safety reasons, with live, neutral, and ground wires
