ELECTRICITY, ELECTROMAGNETISM, MOTORS, GENERATORS, TRANSFORMERS, RECTIFICATION RAD 1130
1. move conductor through a stationary unchanging strength magnetic filed 2. move the magnetic lines of force through a stationary conductor with an unchanging strength magnetic field. 3. vary the magnetic flux strength from a stationary magnet through a stationary conductor
3 ways to create motion between lines of force and conductor
direct current
an electric current that flows in one direction steadily
nonconductor (insulator)
an object that doesn't conduct electricity; electrons can't flow through
ionic solutions
can cause electrons to migrate to positive or negative poles during electrolysis
simply pop open and can be reset once the problem is located and removed from the circuit
circuit breakers
single ring that is divided in half, with each half connected to one end of the armature wire
commutator ring
any material through which electrons may freely pass
conductor
armature, set between opposing magnetic poles
conductor of generator
unit of electric charge
coulomb
earth
defined as zero or ground potential
Number of loops of the wire, Current strength, Permeability of the core
determines strength of solenoids & electromagnets
beryllium, bismuth, lead. weakly repelled by magnetic fields
diamagnetic
inversely proportional relationship to resistance
diameter of conductor
A _________ ___________ generator is made by exchanging the slips rings for a commutator ring
direct current
the addition of resistances, the increasing amperage can short circuit the entire system
disadvantage to parallel circuits
path along which electrons flow; may be wired as series circuits or parallel circuits
electrical circuits
wrap a coil of wire around a ferromagnetic core
electromagnet
protect radiographer from electrical shock by isolating control buttons on the x-ray console from the actual circuit in which high voltage is flowing
electromagnetic relays
any moving charge produces a magnetic field
electromagnetism
temporary, produced by moving electric current. Any flow of current produces a magnetic field, flow stops, magnetic field collapses
electromagnets
other termed used for potential difference
electromotive force (emf)
electric current
electrons moving in the same direction
diameter of coil, its length, current passing along the coil
factors that govern effectiveness of solenoids and electromagnets
iron cobalt, nickel, highly permeable and susceptible to induction, majority of dipoles are in same direction
ferromagnetic
three methods of electrification
friction, contact, induction
metal tab that melts when dangerously heated, need to be replaced, and cannot be reset
fuses
converts mechanical energy into electrical energy
generator
left hand motor rule
index finger- points in the direction of the magnetic lines of force middle finger- points in direction of the conventional current thumb- indicates direction the conductor will move
when current reverses, previously established N and S pole induce an opposing potential difference. going against incoming supply of electrons
inductive reactance
1. Repulsion-Attraction 2. Inverse Square Law 3. Magnetic Poles
laws governing magnetism
as a charged object gets further away, the influencing charge decreases
laws of electrostatics 2. inverse-square law
charges reside on the external surfaces of conductors, and equally throughout nonconductors
laws of electrostatics 3. distribution
greatest concentration of charge will be on the surface where the curvature is the sharpest
laws of electrostatics 4. concentration
electrification occurs because of movement of negative electric charges
laws of electrostatics 5. movement
directly proportional relationship to resistance
length of conductor
Laws of Electrostatics 1. Repulsion-Attraction
like charges repel; unlike charges attract
force fields created when magnetic dipoles orient to create a magnet are called _______
lines of force, lines of flux, or magnetic field
When a nonmagnetized iron bar is brought within the lines of force of a strong magnet, the dipoles will temporarily align themselves with the lines of force passing through the bar
magnetic induction
every magnet has two poles, a north & south
magnetic poles
when a charged particle is in motion a magnetic force field perpendicular to the motion will be created
magnetism
when magnetic dipoles are in a predominant direction
magnetized
the stronger the magnetic field, the ______ lines of flux
more
induction
most important, process of electrical fields acting on one another without contact
device that is supplied with electrical current to produce mechanical motion
motor
result of the interaction of magnetic fields when an electrical current is sent along a conductor that is residing in a magnetic field
motor principle
2 coils close together, primary -supplied with AC current, secondary- induced with AC current
mutual induction
iron oxide remain in earth's field for ages, slowly orienting magnetic dipoles in same direction
natural magnets
3 types of magnets
natural, artificial permanent, electromagnets
wood, glass, rubber, plastic, not affected by magnetic fields and can't be magnetized
nonmagnetic
when magnetic dipoles are randomly arranged, not in a predominant direction they cancel each other out
nonmagnetized
friction
occurs when an object is rubbed against another
unit of measurement for resistance
ohm
several pathways for electrons to flow, each component has an individual branch (homes)
parallel circuit
which circuit operate with greater current through resistances and supply a greater total current from the power supply
parallel circuits
platinum and aluminum, low permeability and weak attraction to magnetic fields
paramagnetic
ease with which a material can be magnetized
permeability
conventional electric current
positive to negative poles for flow, outside
force or strength of electron flow
potential difference
force with which the electrons travel is a function of the difference between the number of electrons in excess at one end of circuit & deficiency at the other. there does not have to be an actual flow of current for the difference to exist.
potential difference
Permits a variable contact to slide along a series circuit of resistant coils
potentiometer or rheostat
P=IV
power
gasses
promote the drift of electron from a negative electrode (cathode) to a positive electrode (anode)
common descriptors of current flow
quantity of electrons, force with which they travel, amount of opposition in current flow
current
quantity, or number of electrons flowing, unit of measurement is amp
the amount of opposition to the current in the circuit is called
resistance
cause significant energy waste in heat
rheostat
coil supplied with AC allows steady flow of electrons, establishes electromagnetic effect for half the cycle.
self induction
A substance that can conduct electricity under some conditions
semiconductor
an electric circuit designed to send electrons through various resistance devices by linking them one after the other (christmas lights)
series circuit
type of curve produced by AC generator is called
sine wave
to convey the electrical current from the armature to the circuit a set of what is used?
slip rings and brushes
conduction wire is looped to form a coil through which current flows
solenoid
detent locks on overhead cranes of x-ray tubes
solenoids
Inside the magnet, the lines of flux travel from:
south pole to north pole
vacuum
space from which air has been removed
conduction coils that turn at the same speed as the generator armature supplying the current
synchronous AC motors
two types of alternating current motors
synchronous AC motors, and AC induction motors
inversely proportional, as temp increases current flow lessens
temperature of conductor
Units for flux density
tesla
laws of electrostatics
1. Repulsion-attraction 2. Inverse square law 3. Distribution 4. Concentration 5. Movement
alternating current
A flow of electric charge that regularly reverses its direction.
the process of electron charges being added to or subtracted from an object
Electrification
electron flow
Electrons move from the highest concentration to the lowest, from negative to positive
The study of electric charges at rest
Electrostatics
1. Strength of magnetic field 2. Speed of motion between lines of force and conductor 3. Angle between lines of flux and conductor 4. Number of turns in conductor
Faraday's Law 4 factors that regulate the strength of induced current
unit of frequency
Hertz (Hz)
induced current flow sets up a magnetic field opposing the action that produced the original current, or simply, induced current opposes any flux change
Lenz's Law
Outside the magnet, the lines of flux travel from:
North Pole and South Pole
V=IR
Ohm's Law
ability of material to stay magnetized
Retentivity
static discharge
The loss of static electricity as electric charges transfer from one object to another
manufactured from a steel alloy (alnico) composed of aluminum, nickel & cobalt. Subjected to strong magnet field and is relatively permanent
artificial permanent
Fleming's right hand rule
thumb- direction of current flow fingers- direction of the magnetic field lines
right hand generator rule
thumb- points in direction the conductor is moving index finger- points in direction of magnetic lines of force middle finger- points in direction of current
what directly relates to ability for a material to conduct
valence energy band (outermost and next-to outermost shell)
potentiometer or rheostat
variable resistor
unit of measurement for potential difference
volt
unit of measurement for power
watt
SI units for flux
weber
contact
when two objects touch, permitting electrons to move from one to another