Notesale: Turn your study into money

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MOVING CHARGES AND MAGNETISM
Magnesium produces electricity which in turn produces
magnetism
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Magnitude of the magnetic force is equal to q v b sin theta
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Magnetic field is always
perpendicular to magnetic field
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A magnetic field is important for example because it can help
move charges along a field direction
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The magnetic velocity is
also providing a motion for the water center
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The time period
of the music is independent of the velocity, and it can last for an
indefinite amount of time
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This means that the time
taken for a small circle is the same as for a big circle
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When looking at an antenna, the angular zero point is located at
the top and side of the antenna
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This will be the deviation of the data from what would
be expected if there was no radiation
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The
electrostatic field is created by the force of electricity between charged

particles
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The direction of this
field is determined by the direction of the force of electricity between
the particles
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At this point, the magnetic force begins
to depend on the velocity of the particles
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The current flowing through a wire is called the current
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The net
force on the charge is equal to 0, but here, the forces on the charges are f1 and
f2, which are both upwards
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This results in 4 forces acting on the charge: 2 times f1
and 2 times f2
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In origin, this origin so long, but it starts from it beautiful
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A magnetic moment is the amount of force needed to move an
object with a magnetic field
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Magnetic moment is important because it affects the strength
of a magnetic field
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Magnetic moment
is also important in understanding the principles of magnetism
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This
small charge is called the dq charge
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The
radius of a small ring made out of liquid metal that has been
filled with tiny charges is x square by 2
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The density of the charge on the surface of
the small ring is equal to the linear density of charge multiplied
by the area of the ring
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The total charge on the surface of the small ring is also equal to

the total area of the ring multiplied by the linear density of
charge
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The linear
expansion of charge causes it to spread out over a larger area
when it moves
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The total charge on the
surface of this trigger, which has been placed in a magnetic
field, is equal to gamma multiplied by beta
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Instruments such as a galvanometer, ammeter, voltmeter and
e
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f
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For example, if we were to look at the xy
plane, we would see that the chestnut is in the center of the
plane
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Now let's take a look
at normal (i
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In this case, our coil is
parallel to the bar (i
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Finally,
let's consider what happens if our coil is not parallel to the bar
(i
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In this case, our force (in
Newtons) would be equal on both sides of the coil (i
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right and
left)
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When our coil is not
parallel to the bar, force is either equal on both sides or there is
a decrease in force (depending on which side of the coil is
facing the magnet)
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00001 Tesla per meter)
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Foreign music is a subject that many people are interested in
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Tesla's first use of a magnetic field is also something
that interests many people
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If you cancel out the
integral, you can write this equation as well
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The field at a point
which is in the direction of current is zero
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b 2
and of course the direction into the boat and if zero negative
what direction would have been so what will be the final v final
b bar equals to 3 mu naught i by music Right okay
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If x is greater than then greater than a much
greater than this formula will become like this
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This is
a closed surface that is equal to the enclosed by Epsilon
Naught
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If small r is greater than r
then it is outside point outside
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Magnetic field at the center and the b is equals Music Good
weight qualifying r square x square to the power of three by two
at the corner on the axis of a current carrying coil then the n
turns if it has n turns then what is the formula n times mu
naught i r square by 2
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i enclosed is equal to n times l times and this l
that will cancel
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What is this force felt by a current
carrying wire of length l in a magnetic field b perpendicular to
perpendicular voltage? Simply, this is the force felt due to two
currents due to one filter
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The net force enthalpy f1 minus f2 is the
net force and a net force is equals to f1 plus f2 so b minus j has
their optionality
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8 y 3 by 2 pi
b into n into n so under common is 7 d so this will be the force f
if you put 0 when that resultant will be 0 it is 0
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3 by
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3 into n should equal to i 1 i 1
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i i 1 y 3 is equal to 8
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A meter measures current in the
circuit
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We use shunter resistance, shunt resistance, and a very low
resistance
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Shunt resistance is required to
increase the range by n times, but it is also required to decrease the
sensitivity by 100 times
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Every point
we discussed in an ammeter applies to an alternator, but there's a
different problem with a system
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A maximum current of 0
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05 milliamp of resistance
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025 0
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