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20/08/2013
Today’s lecture:
PHYSICS 1B
Electricity & Magnetism
Magnetism
The Magnetic Field, B
Magnetic Forces
and
Motion in a Uniform Magnetic Field
Lecture 7, 04/12/2012
A Brief History of Magnetism…
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
13th Century BC Records show that the Chinese used a compass with a magnetic needle, which is thought to have been an invention of either Arabic or Indian origin. 800 BC The Greeks discovered that the mineral magnetite (Fe3O4) attracts piece of iron.
Lecture 7, 04/12/2012
A Brief History of Magnetism…
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
1269 Pierre de Maricourt found that the direction of a needle near a spherical natural magnet formed lines that encircled the sphere. Those lines also passed through two points diametrically opposed to each other. He called those points “poles” 1600 William Gilbert published the results of his experiments with magnetism, suggesting the Earth itself was a large, permanent magnet.
Lecture 7, 04/12/2012
A Brief History of Magnetism…
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
1750 Experiments show that magnetic poles exert attractive or repulsive forces on each other. 1819 Hans Christian Oersted observed that an electric current deflected a compass needle during a physics demonstration. This revealed that there is a relationship between electricity and magnetism!
Every magnet, regardless of its shape, has two poles. We call these the north and south poles. Poles exert forces on each other, in much the same way that electric charges exert forces on each other. Like poles (and like charges) repel one another – i.e. N-N or S-S Unlike poles attract each other – i.e. N-S
20/08/2013
Magnetic Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The poles received their names due to the way a magnet behaves in the Earth’s magnetic field. If a bar magnet is suspended so that it can move freely, it will rotate. The magnetic north pole will point towards the Earth’s north geographic pole Which, a little perversely, means that the Earth’s north geographic pole is a magnetic south pole, and the Earth’s south geographic pole is a magnetic north pole!
20/08/2013
Magnetic Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The force between two poles varies as the inverse square of the distance between them. A single magnetic pole has never been isolated (i.e. magnetic poles are always found in pairs). All attempts to date to detect an isolated magnetic pole have been unsuccessful – although there is some theoretical basis for the existence of monopoles – single poles. No matter how often you cut a permanent magnet in two, each piece will always have a north and a south pole.
20/08/2013
Magnetic Poles, final
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Remember – an electric field surrounds any electric charge. Similarly, a magnetic field surrounds any permanent magnet. In addition, the region of space surrounding any moving electric charge also contains a magnetic field.
20/08/2013
Magnetic Fields
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The magnetic field is a vector quantity, and is symbolised by B The direction of B is given by that which the north pole of a compass needle points. Magnetic field lines trace this direction in space, and can be used to visualise the magnetic field. Just as electric field lines can be drawn to visualise the electric field!
20/08/2013
Magnetic Fields
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
If we were to take a compass and move it around a bar magnet, the compass arrow would turn in such a way that we could use it to trace out the magnetic field lines. Electric field lines ran from positive charges to negative charges. Magnetic field lines point from the magnet’s North pole to its South pole.
20/08/2013
Magnetic Fields around a Bar Magnet
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Iron filings can be used to show the pattern of the magnetic field lines.
Remember – the direction of the field is the direction that a north pole would point.
20/08/2013
Magnetic Fields around a Bar Magnet
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Again, iron filings can be used to show the pattern of the magnetic field lines.
Compare to the electric field produced by an electric dipole, as shown below:
20/08/2013
Magnetic Fields for Opposite Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Iron filings yet again…
Compare to the electric field produced by two like charges, as shown below:
20/08/2013
Magnetic Fields for Like Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
More proper terminology would be that a magnet has “north-seeking” and “south-seeking” poles. The north-seeking pole points towards the north geographic pole (which corresponds to the Earth’s south magnetic pole). The south-seeking pole points towards the south geographic pole (which corresponds to the Earth’s north magnetic pole). The configuration of the Earth’s magnetic field is very much like that which would be achieved by burying a gigantic bar magnet deep in the Earth’s interior.
20/08/2013
Earth’s Magnetic Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
20/08/2013
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The source of the Earth’s magnetic field is thought to be convection currents in the Earth’s core. The magnetic field may well be the result of plate tectonics! Of the four terrestrial planets, Mercury, Venus, Earth and Mars, only the Earth has a strong magnetic field. The giant planets (Jupiter, Saturn, Uranus and Neptune) have much stronger fields than the Earth.
20/08/2013
Earth’s Magnetic Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
It is well established that the direction of Earth’s magnetic field reverses periodically, on timescales of hundreds of thousands of years to a few million years (with the reversals typically thought to take between 1,000 and 10,000 years). Earth’s magnetic field protects Earth’s atmosphere and is the reason Aurorae are visible most frequently near the Earth’s magnetic poles.
20/08/2013
Earth’s Magnetic Poles
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The Sun, on Sunday evening… (18th August, from http://spaceweather.com )
20/08/2013
Magnetic Field and Sunspots – a slight aside
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The Sun, in 2001…
20/08/2013
Magnetic Field and Sunspots – a slight aside
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Sunspots and the magnetic field of the Sun
20/08/2013
Magnetic Field and Sunspots – a slight aside
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Coronal Loops in the Sun’s atmosphere – material follows the magnetic field lines.
20/08/2013
Magnetic Field and Sunspots – a slight aside
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The magnetic field, B, at some point in space can be defined in terms of the magnetic force, FB. Note: B is sometimes known as the Magnetic Induction A magnetic force will be exerted on a charged particle moving in a magnetic field (with a velocity v). Assume, for now, that there are no gravitational or electric fields present…
20/08/2013
Magnetic Fields and Forces
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The magnitude, FB , of the magnetic force exerted on the particle is proportional to both the charge, q, and the speed, v, of the particle. The direction of the force depends on the velocity of the particle and the direction of the magnetic field. The direction of the force is perpendicular to both the particle’s velocity, and the direction of the magnetic field. If the particles velocity vector makes any angle θ ≠ 0 with the field, the force therefore acts in a direction perpendicular to the plane formed by the velocity and the field.
20/08/2013
FB on a Charge Moving in a Magnetic Field
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The magnetic force exerted on a positive charge is in the direction opposite the direction of the magnetic force exerted on a negative charge moving in the same direction. The magnitude of the magnetic force is proportional to the sine of the angle (θ) that the particle’s velocity makes with the direction of the magnetic field. i.e. 𝐹𝐵 ∝ sin 𝜃
20/08/2013
FB on a Charge Moving in a Magnetic Field
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
Mathematically, the magnetic force is expressed as: 𝑭𝑩 = 𝑞𝒗 × 𝑩 where: FB is the magnetic force q is the charge v is the velocity of the moving charge B is the magnetic field
20/08/2013
FB on a Charge Moving in a Magnetic Field
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
20/08/2013
Direction
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The rule is based on the right-hand rule for the cross product. Your thumb points in the direction of the force, if q is positive. The force is in the opposite direction to your thumb, if q is negative.
20/08/2013
Direction: The Right-Hand Rule
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The magnitude of the magnetic force on a charged particle is:
𝐹𝐵 = 𝑞 𝑣 𝐵 sin 𝜃 Where θ is the angle between v and B FB is zero when v and B are parallel or antiparallel (i.e. if θ = 0⁰ or 180⁰). FB is a maximum when v and B are perpendicular (i.e. when θ = 90⁰)
20/08/2013
The Magnitude of FB.
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
A proton moves at a velocity v = 8 x 106 ms-1 in the x-direction. It enters a region with a magnetic field of B = 2.5 T directed at 60⁰ to the x-axis in the x-y-plane. What is the initial force on the proton? From the right hand rule, we know that the force acts in the z-direction.
𝐹 = 𝑞𝑣𝐵 sin 𝜃
∴ 𝐹 = 1.6 × 10−19 C . 8 × 106 ms−1 . 2.5 T . sin 60°
∴ 𝐹 = 2.77 × 10−12 N
20/08/2013
An Example.
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
1) Direction of force
The electric force acts along the direction of the electric field. The magnetic force acts perpendicular to the magnetic field.
2) Motion
The electric force acts on a charged particle regardless of whether it is moving. The magnetic force acts on a charged particle only when the particle is in motion.
20/08/2013
Differences Between Electric and Magnetic Fields
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
3) Work
The electric force does work in displacing a charged particle The magnetic force associated with a steady magnetic field does no work when a particle is displaced (since the force is perpendicular to the displacement at its points of application, and so F.ds = 0)
20/08/2013
Differences Between Electric and Magnetic Fields
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The kinetic energy of a charged particle moving through a magnetic field cannot be altered by the magnetic field alone. When a charged particle moves with a given velocity through a magnetic field, the field can alter the direction of the velocity, but not the speed of the particle.
The kinetic energy of the particle is therefore not changed by the magnetic field.
20/08/2013
Work in Magnetic Fields
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The SI unit of magnetic field is the tesla (T). Since we know that 𝐹𝐵 = 𝑞 𝑣 𝐵 sin 𝜃
1 T = 1 N
Cms
= 1 N
A m
Where A is the amp, which is the SI unit of electric current, which is Cs-1
You will sometimes here of magnetic fields measured in gauss (G) – this is the cgs unit of magnetic field, and 1 T = 104 G
20/08/2013
Units of Magnetic Field
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
When we want to represent magnetic field lines on a figure, there will be many occasions when those lines will either go into the page, or come out of it. The convention we use is that dots represent arrows that are coming out of the page, and crosses represent arrows going into the page. This is a standard notation, and can be used when plotting other vector quantities.
20/08/2013
A quick note on notation…
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
20/08/2013
Typical Magnetic Field Values
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The north-pole end of a bar magnet is held near a positively charged piece of plastic. The plastic is: a) Attracted
b) Repelled
c) Unaffected by the magnet
20/08/2013
Quick Quiz
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
The north-pole end of a bar magnet is held near a positively charged piece of plastic. The plastic is: c) Unaffected by the magnet The magnetic force exerted by a magnetic field on a charge is proportional to the charge’s velocity relative to the field. If the charge is stationary, as in this situation, then there is no magnetic force.
20/08/2013
Quick Answer
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
A charged particle moves with velocity v in a magnetic field B. The magnetic force on the particle is a maximum when v is: a) Parallel to B
b) Perpendicular to B
c) Zero
20/08/2013
Quick Quiz
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
A charged particle moves with velocity v in a magnetic field B. The magnetic force on the particle is a maximum when v is:
b) Perpendicular to B
The maximum value of sin θ occurs when θ = 90⁰.
20/08/2013
Quick Answer
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
An electron moves in the plane of the screen towards the top of the screen. A magnetic field is also in the plane of the screen, directed to the right. The direction of the magnetic force on the electron is therefore: a) Toward the top of the screen
b) Toward the bottom of the screen
c) Toward the left edge of the screen
d) Toward the right edge of the screen
e) Out of the screen
f) Into the screen
20/08/2013
Quick Quiz
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism
An electron moves in the plane of the screen towards the top of the screen. A magnetic field is also in the plane of the screen, directed to the right. The direction of the magnetic force on the electron is therefore: e) Out of the screen
The right hand rule gives the direction. Be sure to account for the negative charge on the electron!
20/08/2013
Quick Answer
PHYSICS 1B – Magnetism
Electricity & Magnetism – Magnetism