Magnetic Fields Flashcards
What 4 things do magnetic fields affect?
- Charges moving in the field
- Conductors with a current passing through
- Other magnets
- Magnetic materials
What do the field lines for a bar magnet look like?
Field lines always act North → South
What do the field lines look like between two opposite poles?
Field is uniform between the poles
What do the field lines look like between two like poles?
How are field lines represented ‘going into the page’?
How are field lines represented ‘coming out of the page’?
This conductor in a magnetic field has a current passing through
But doesn’t experience a force
Why?
Because it is parallel to the field lines
When do you use Fleming’s Left hand Rule?
- Looking at DC motors
- Looking at charges moving in a magnetic field
How do you calculate the force on a conductor placed at an angle in a magnetic field?
First use trigonometry to calculate the perpendicular component of its length
Why does the reading on the balance increase when a current runs through the conductor?
The magnetic field pushes up on the conductor
So the conductor pushes the magnets down (Newton’s 3rd Law)
How can you increase the mechanical energy produced by the DC motor?
Increase the torque by:
What do the commutator rings do in the DC motor?
Switch connections of the bars every 180°
So direct current is produced
What happens if the commutators are removed from the DC motor?
Force on each bar won’t change
So coil will reach equilibrium in vertical position
And won’t continue spinning
Why does an electron move in a circular path in a magnetic field?
Force from magnetic field perpendicular to velocity of electron
How do you apply Flemming’s left hand rule to a negative charge moving in a field?
Current acts opposite to the velocity
How do you apply Flemming’s left hand rule to a positive charge moving in a field?
Current acts in the same direction as the velocity
When should you use each equation?
F=BIL on a conductor in a magnetic field (with current)
F=BQv on a charge in a magnetic field (moving)
How do you calculate the radius of the orbit of a charge moving in a magnetic field?
Equate the magnetic and centripetal forces
How do you explain the different curvatures of radiation () passing through a magnetic field?
Greater the specific charge → Smaller r (Bigger deflection)
How do you calculate the speed of a charged particle accelerated through an electric field?
How much work does a magnetic field do on a moving charge?
0J because the force and velocity vectors are perpendicular
So the charge does not increase its kinetic energy
In a mass spectrometer how does the velocity selector work?
Unless an ion’s velocity = E/B, it will travel in a parabola and miss the gap
In a mass spectrometer how does the mass separation work?
The ions have the same velocity (from the velocity selector)
So deflect by specific charge
In a particle accelerator why are both magnetic and electric fields needed?
In the cyclotron what is the purpose of the alternating current and magnetic field?
Alternating current → Electric Field between ‘Dees’ → Increases kinetic energy
Magneti Field → Moves particle in circular path in ‘Dees’ → Containing particle
In the cyclotron why is the frequency of the alternating current constant?
As the charge speeds up → Travels further in each Dee → So takes same time
How do you calculate the AC frequency of the cyclotron?
Note: f is independent of v
So the frequency is constant
How is 1 Tesla defined?
The magnetic field that applies a force of 1N to a 1 metre conductor with a 1A current flowing perpendicular to the field (B=F/IL)
