Activity B1-WA due by 4 pm Friday 03/28 Chapter 5 Mallard HW quiz – Due by 12 AM Thursday 03/27...
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Transcript of Activity B1-WA due by 4 pm Friday 03/28 Chapter 5 Mallard HW quiz – Due by 12 AM Thursday 03/27...
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Activity B1-WA due by 4 pm Friday 03/28
Chapter 5 Mallard HW quiz – Due by 12 AM Thursday 03/27
Chapter 5 quiz in class on Thursday 03/27
Tuesday, March 25
Spring 2008
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Electricity and Magnetism
Chapter 5
Great Idea:Electricity and magnetism are two different
aspects of one force—the electromagnetic force
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Batteries and Electrical Current
• Electrical current– Flow of charged particles– Symbol: I – Units: Coulombs/second (C/s)
• Voltage– the difference in electrical charge between two
points in a circuit (electrical “pressure”)– Symbol: V– Units: volts (V)
• Battery– Converts chemical energy to kinetic energy
(energy of flowing charges)
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Electric Circuits
• Electric circuit– Unbroken path of material carrying electricity
• Circuit components1. Source2. Closed path3. Device to use electrical energy
• Ohm’s Law– Current is directly proportional to voltage V and
inversely proportional to resistance R – In symbols: I = V / R
• Electric Power: P = I × V
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Magnetic Effects from Electricity
• Oersted– Magnetic field created by
motion of electrical charges
• Magnetic Monopole– Does not exist– Magnetism is related to
arrangement of electrical charges in atoms
• Electromagnet
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Electric Motors & Magnetism
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Electrical Effects from Magnetism
• Faraday– Electromagnetic induction– Electrical fields and currents
can be produced by changing magnetic fields
• Electric Generator
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Maxwell’s Equations
• Coulomb’s Law• No magnetic monopoles• Magnetic phenomena produced by
electrical effects• Electrical phenomena produced by
magnetic effects
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Waves & Electromagnetic Radiation
Chapter 6
Great Idea:Whenever an electrically charged object is accelerated, it produces electromagnetic
radiation—waves of energy that travel at the speed of light
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Waves
A wave is a traveling disturbance that transports energy from one place to another without transporting matter across the
intervening distance.
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• Oscillation – back-and-forth motion about an equilibrium position
• Cycle – one complete oscillation or repetition of a periodic motion
• Period, T – the length of time required for one cycle
• Frequency, f – number of cycles that occur during a unit of time f = 1 / T
• Amplitude – distance traveled above or below equilibrium position
Simple Oscillations
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Properties of Periodic Waves
Speed of wave: v = f
f
v
time between wave crests
A periodic wave is a wave made of a series of pulses separated by equal time intervals.
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Sample Exercise
Suppose that water waves have a wavelength of 1.4 m and a period of 0.8 s.
What is the frequency of these waves?
What is the velocity of these waves?
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Sample Exercise
A wave on a rope is shown in the diagram.
a. What is the wavelength of this wave?
b. If the speed of the wave is 6 m/s, what is its frequency?
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Longitudinal wave –
motion in same direction
as wave
Transverse wave –
motion perpendicular to
wave direction
Two Basic Wave Types
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A sound wave is a periodic longitudinal wave of pressure variations propagating through a medium.
Sound Waves
http://electronics.howstuffworks.com/speaker5.htm
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Sound Waves
The shapes of instruments and the materials they’re made of influence the pitch and timbre of the sound they create...
Pitch of sound is determined by its frequency and
speed
High frequency = high pitch; low frequency = low pitch
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Sound Waves
L = ½
Sound waves travel at about 340 m/s (≈ 760 mi/h) in air
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Doppler Effect
Apparent shift in frequency of a wave emitted from or received by a moving source
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– Constructive Interference• Add together
– Destructive Interference• Cancellation
Wave Interference
wave addition
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Electromagnetic Waves
Self-propagating radiant energyEnergy transferred by oscillating electric and magnetic
fields created by accelerated charges
Electromagnetic waves continue through internal mechanisms and transfer energy as they travel;
they do not require a medium to travel.
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Speed of Light
Higher frequency visible light = blue color
Lower frequency visible light = red color
c = 3 × 108 m/s = 186,000 mi/s
v = f = c
All electromagnetic waves travel at the same speed
Energy of wave: E = hf (h is Planck’s constant
= 6.626 × 10-34 m2·kg/s)
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Interaction of EM Waves & Matter
Transmission:
wave passes through matter
refraction & dispersion
Absorption: wave & energy are absorbed
Scattering: wave & energy absorbed and
reemitted
diffuse scattering
reflection
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The Blue Sky – Light Scattering
Molecules in the air preferentially scatter high frequency blue light waves – sky appears blue when viewed away
from direct sunlight
Sky appears white around the Sun – yellow/orange/red when light traverses long distances through the atmosphere
http://math.ucr.edu/home/baez/physics/General/BlueSky/blue_sky.html
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Electromagnetic Waves & the Doppler Effect
Apparent shift in frequency of a wave emitted from or
received by a moving source
Higher frequency light:
“blueshifted”
Lower frequency light:
“redshifted”