phys 122 final
analyzing AC circuits
1) constrcutor phasor diagram 2) find the impedance 3) determine amplitude of current use: I=Emax/Z to find the phase of the current relative to the emf use: tan(theta)=[wL-(1/wC)]/R 4) find amplitude of potential difference across any reactive element using V=XI where X is the reactance
calculating inductance
1) find magnitude of magnetic field (through the loop or in the device) as a function of current 2) calculate the magnetic flux through the loop (if equation from step one depends on position= integrate) 3) take the derivative of the flux equation and set it equal to L(dI/dt) *******dI/dt should end up on both sides of this new equation 4) solve for L after eliminating dI/dt
calculating magnetic filed using amp's law
1) use right hand current rule to draw in magnetic field lines 2) if the field lines form circles the amp path should be a circle, if the lines are straight the amp path should be rectangular 3) make an amp path so that the field is perpendicular or tangent to the path. Make the part of the path that is parallel to the field in the same direction as the field. 4) use the right hand current rule to find the direction of the field of each current encircled by the path. If this field and the amp path have the smae direction, the Ienc is positive. 5) Calculate the line integral for each amp path. Express answer in terms of unknown B magnitude 6) use amp's law to relate Ienc and the line integral to solve for B.
from the cylindrical symmetry of the wire, the magnitude of the magnetic field decreases as...
1/r with distance r from the wire
electric field vs. magnetic field
E field= charged particle/changing magnetic field, exerts force on any charged particle B field= moving charged particle/changing electric field, exerts force on a moving charged particle
if a conducting loop or square move through a magnetic field what is established?
a current
if a wire carrying a constant current is bent into a loop...
all field lines inside the loop point in the same direction, reinforcing one another.
magnetic flux through a closed surface is...
always zero because field lines form loops
a changing magnetic field is accompanied by..
an electric field
a spinning charged particle has a magnetic field identical to that of...
an infantinitesimally small magnetic dipole
the integral along the noncircular path is eual to that along...
any circular path centered on the wire
why do kinks arise in electric fields?
because the field cannot change instantaneously everywhere in space to reflect changes in the source particle's motion
magnetic interactions
between magnets, current carrying wires, and moving charged particles
theta less than 0 in RLC (below resonance)
capacitor procides the dominant contribution to impedance and the current leads the emf
magnetic field between the plates of the charging capacitor arises from the...
changing electric field
when a conducting rod moves through a magentic field where velocity is perpendicular to magnetic field what is established?
charge separation
harmonic electromagnetic wave
charged particle oscillates sinusodially
there is a magnetic field in and around the gap between the plates of a...
charging capacitor
electromagnetic waves
combined disturbance in an electric and magnetic field that is propagating through space. kinks are electromagnetic wave pulses
planar electromagnetic wave
constant magnitude of the electric field in a plane normal to the direction of propagation uniform magnetic and electric field perpendicular to each other and to the direction of propagation
phasor rotates...
counnter clockwise
E cross B yields a vector in the direction of propagation (RHR)
curl fingers from E to B and thumb points in direction of propagation
VR is in phase with...
current
amperian path
current encircled by a closed path
when a loop moves into or out of a uniform magnetic field...
current is induced
given graph of emf for a non sinusodal AC circuit, graph current
current is the slope of emf times capcitance
work must be done on an inductor to establish...
current through it because the change in teh current causes an induced emf that opposes this change
magnetic dipole moment
defined to point like a compass needle along the direction of the magnetic field through the center of the dipole use right hand rule to find direction -curl your fingers along the direction of the current -thumb points in the direction
there can't be conventional current in a _______
dielectric
eddy currents
dissipate energy circular currents induced throughout the surface of the object
stationary charged particles
do not have magnetic interactions
inserting a dielectric increases the magnitude of the _______ between the plates of a capacitor, but the _______ surrounding the wires that lead to the capacitor is determined only by the _______ and cannot be affected by the insertion of a dielectric
electric field magnetic field current
polarization of waves
electric field of an electromagnetic wave as seen by an observer looking in the direction of propagation
when the current through a conducting loop changes, the changes induce an...
emf in the loop itself
AC circuits current is not proportional to.....
emf of the source
induced emfs
emfs produced by electromagnetic induction
As an electromagnetic wave travels _________ travels with it in the direction of ___________
energy propagation
length of phasor
equals amplitude
if you shrink the size of both the current loop and the bar magent, their magnetic field patterns become...
identical
the value of the line integral of the magnetic field along a closed path encircling a current-carrying wire is...
idependent of the shape of the path
the faster the current changes the greater the...
induced emf
a changing magnetic flux through a conducting loop...
induces a current in the loop
theta more than 0 in RLC (above resonance)
inductor dominates and the curren lags the emf
LC circuit
inductor in series with capacitor capacitor discharges more slowly than it would without the inductor when the capacitor is completely discharged all of the enery is contained in the magnetic field, and the current in the inductor is at a max current charges capacitor in opposite direction when current is zero and magnetic field are zero the capacitor is fully recharged in the oppose direction energy is constant UB+UE=U
finding magnetic field due to current
integration path should be taken along the path followed by the current. use biot-savart law
the current encircled by a closed path is equal to the current that is...
intercepted by any surface that spans the path not true for capacitors
magnetic flux through a closed surface
is always zero
the magnitude of the electric field in the kinks
is greater than everywhere else in the field
in an AC circuit that contains an inductor the current in the inductor _____ the potential difference by _____
lags, 90 degrees
In an AC circuit that contains a capacitor, the current in the capcitor ______ the potential difference by ____
leads, 90 degress (1/4 cycle)
light and electromagnetic wave relationship
light is an electromagnetic wave
biot-savart law
long straigh current carrying wire with a constant current dBs direction of dBs is curl fingers from dl to rsp and thumb will point in dBs
soleniod
long tightly wound helical coil of wire. generates strong magnetic field directed along the axis
electric field lines that accompany a changing magnetic field form...
loops
when the magentic dipole moment is parallel to the magnetic field all four sides of the loop experience
magnetic force, but the vector sum is zero and there is no torque
Vc
maximum value of an osicllating quantity (amplitude) maximum potential difference across a capacitor
power factor
measure of efficiency with which the source delivers energy to the load. when current and emf are in pashe max power is deilvered to the load
reactance
measure of the oppositiion of a circuit element to a change in current
field lines near the line of travel vs. in the plane perpendicular to the motion
near the line of travel= sparse perpendicular to the motion= closely clustered together
when a loop is entirely in or out of a magnetic field...
no current is induced
in a stationary loop next to a moving magnet...
no magnetic force is exerted on the loop, but a current is induced.
the magnetic field in a toroid is...
not constant, it depends on the distance r to the axis through the center of the toroid.
inductance
of a current carryin device or loop is a measure of the emf induced in the device or loop when the current is changed. (depends only on the geometry of the device) proportionality between the emf and the rate of change of current
the direction of an induced current through a conducting loop is always such that the magnetic fluc produced by the induced current...
opposes the change in magnetic flux through the loop
induced current is always in the direction that...
opposes the motion or change that caused it
resonance curve
oscillating physical quanitity has a peaked angular frequency dependence tall sharp peak= little dissipation
magnetic field lines are similar to electric field line patterns, but...
perpendicular to it
dipole moment
points from negative to positive
When the capacitor is connected direction to the AC source, the time dependent ________ across the capacitor ____ equals the ________ of the AC source at any instant
potential difference, vc, emf
difference between emf and potential difference
potential difference= electrostatic interactions, not dependent on path emf= nonelectrostatic interactions, depends on path
impedance
property of entire load ohms depends on the frequency for any load that contains reactive elements
phase constant
represents the phase differene betweeen the source of emg and the current when current leads= negative when current lags= positive
RC circuit
resistor and capcitor in series with AC source
a current loop placed in a magnetic field tends to...
rotate to align the magnetic dipole with the field.
frequency of magnetic and electric fields
same frequency, in phase
damping
similar to resistance
torid
solenois is bent into a circle so that the two ends are connected
source
source that generates sinusodially alternating potential difference or current
the line integral of the magentic field along a closed path is proportional to...
the current encircled by the path
induced current
the current that arises from the motion of charged particles realtive tot he magnetic field
potential energy in an inductor comes from...
the current through it or the magnetic field that is caused by the current
the magnetic field inside the solenoid depends on...
the current through the windings and on the number of windings per unit length
the greater the rate of change of magnetic flux through the loop...
the greater the induced current
dielectrics inserted in capacitors do not change...
the magnetic field because they don't change the current
a force does no work when...
the point of application doesn't move, or the force is perpendicular to the motion
RLC circuit all of the energy elivered to the circuit is dissipated in...
the resistor
the line integral of the magnetic field of a straight current-carrying wire over any circular path center on the wire has...
the same value
instantaneous value of quantity represented by a rotating phasor
the vertical component of the phasor
the emf of a charge-separating device is ...
the work done per unit charge by non-electrostatic interactions in separating charge within the device.
if the magnetic field due to a segment is perpendicular to the amp path...
they do not contribute integral of B*dl=0
when a particle accelerates what happens to the electric field lines?
they form kinks that do not go away when it reaches a constant speed
right hand dipole rule
thumb in direction of B and fingers curl in direction of I
right hand current rule
thumb in the direction of current (also change in electric field direction), fingers curl in direction of magnetic field
current loop in magentic field experiences magentic forces on...
top and bottom sides but not on the vertical sides becuase they are parallel to the direction of the magnetic field force on top and bottom sides cause torque
as you move a conductor relative to a magnetic field the work you do...
transfers energy to the conductor, setting the charge carriers in motion creating an induced current
finding the sum of oscillating potential differences
use pythagorean theorem to sum the two phasor vectors A= sqrt(v1^2+v2^2) where A is the new amplitude and v1 and v2 are the original amplitudes then use tangent to find the angle between V1+V2 and V1 (theta) V1+V2= Asin(wt+theta)
vc and i
when Vc is max, i is zero, when I is max, vc is zero
as you move a charged particle around a closed path through an electrostatic field, the work done by the electrostatic field on the particle is...
zero
the line integral of the magnetic field along a closed path that does not encircle any current-carrying wire is...
zero
when a charged object is moved around a closed path in an electrostatic field the work done on it is...
zero
when a solenoid is infinitely long the magnetic field outside approaches...
zero
