6.3 Electromagnetism Flashcards
what is a magnetic field?
a magnetic field is the region around a permanent magnet or a moving charge in a current-carrying conductor in which another body with magnetic properties will feel a force
what do magnetic field lines show?
- the shape of the field
- the direction of the field
How is a magnetic field of a bar magnet created?
It is, created by the e-‘s whizzing around the iron nuclei. You can visualise the iron atoms as tiny magnets, all aligned in the same direction
magnetic field lines always go from…
NORTH to SOUTH
State two methods of producing a uniform magnetic field
Use two opposite magnetic poles. The magnetic field is uniform in space between the opposite poles of a magnet
Use a current-carrying solenoid. The magnetic field is uniform at the centre of a solenoid carrying a current.
what is the symbol for current going into the page?
a circle with a cross, think arrowhead moving away from you
what is the symbol for current coming out the page?
a circle with a dot, think arrowhead coming towards you
what do you always get around a wire carrying an electric current?
a magnetic field
what is a solenoid?
a coil of wire
what rule can be used to work out the magnetic field around a current carrying wire? and what are the two differences in the rule for a simple wire and a solenoid?
you use the right hand rule where…
thumb = current
fingers = field direction
FOR A STRAIGHT CONDUCTOR^
thumb = field direction
fingers = current (curl your fingers)
FOR A SOLENOID^
when you have a current perpendicular to a magnetic field what happens?
a force is induced
(this force comes from the interaction between the magnetic field of the wire and the magnetic field of the external magnets)
what rule can you use to work out induced force from a current carrying wire being perpendicular to a magnetic field?
Fleming’s left hand rule, where…
thumb = force
index = field
middle = conventional current (positive to negative)
what is the equation for the induced force on a current carrying wire in a magnetic field?
F = BILsinϴ where F = induced force B = magnetic flux density I = current in the wire L = length of current carrying wire in the field
when is the induced force from a current carrying wire in a magnetic field at its maximum?
when the current carrying wire and magnetic field are perpendicular, i.e F = BILsinϴ when ϴ = 90
outline an experiment to investigate flux density (calculate B)
- place magnets on a top-pan balance. The magnetic field between them is almost uniform
- a copper wire is held perpendicular to the magnetic field between the two poles
- length of wire is measured w a ruler
- using crocodile clips, connect the wire to a circuit to produce a current by having a section of the wire connect to an ammeter and a variable power supply in series
- the power supply should be connected to a variable resistor to be able to alter the current,
- zero the balance when there is no current so the mass reading is only due to the electromagnetic force not the weight force, then turn on the power supply
- note the mass and current, then change the current by altering the variable resistor and record the new mass and current, do this for a range of currents and repeat to get averages
- convert the mass into force using w = mg, plot a graph of F against I and the gradient will be equal to B x L (because of F = BIL)
- measure gradient and divide by length, L, of wire in the field to get B, magnetic flux density
Why does the mass reading change when the current is changing
Because when there is a current, the wire experiences a vertical upward force.
Now according to Newton’s 3rd law or motion, the magnets experience an equal downward force F, which can be calculated from the changed in the mass reading, m, using F = mg
Explain why a current-carrying wire experiences a force when placed close to a magnet
A current-carrying sure is surrounded by its own magnetic field as well as the magnet. And when these fields come in close proximity they each interact with each other. As a result it produces a force on the wire
what is the equation for magnetic flux when the area cuts through the field at 90 degrees?
Φ = B x A magnetic flux (Φ) = magnetic flux density (B) x area at right angles to the flux (A)
what is magnetic flux density measured in?
tesla, T
what is magnetic flux measured in?
weber, Wb
what is magnetic flux density defined as? (in words)
magnetic flux density is a measure of the strength of the magnetic field and is defined by the equation for the force on a current-carrying conductor in a magnetic field, F = BILsinϴ
What is magnetic flux density
is 1T when a current conductor is carrying a current of 1A, placed perpendicular to the magnetic experiences a force of 1N per metre of its length
is tesla a large or small unit?
a very LARGE unit, the Earth’s magnetic field is roughly equal to about 60 micro tesla
what is the equation for the induced force on a single charged particle in a magnetic field?
F = BQV
A proton is travelling at 4.0 x 10^6 ms-1 describes a circular path in a uniform magnetic field of flux density 800 mY. Calculate:
a) the radius of the path;
b) the period of the proton;
c) show that the period of the proton is independent of its speed
r = 0.053 T = 2pier/v = 8.3 x 10^-8 s
T = 2pie r / v
r = mv/BQ
T = 2 pie m/ BQ
how do you derive F = BQV?
F = BIL I = Q / t V = L / t so L = Vt F = B x Q/t x Vt F = BQv
how do charged particles move in a magnetic field? and why?
they are deflected in a circular path (circular motion) because the force is acting at right angles to the direction of motion, no net force so particles have constant speed