050316 week 8_electromagnetism (1)
18
UCSD Physics 10 Electromagnetism Electromagnetism Electromagnetic Induction Electromagnetic Induction Electromagnetic Waves Electromagnetic Waves James Clerk Maxwell Michael Faraday
-
Upload
subas-nandy -
Category
Education
-
view
78 -
download
1
Transcript of 050316 week 8_electromagnetism (1)
UCSD Physics 10
ElectromagnetismElectromagnetism
Electromagnetic InductionElectromagnetic InductionElectromagnetic WavesElectromagnetic Waves
James Clerk Maxwell Michael Faraday
UCSD Physics 10
Spring 2008 2
ElectromagnetismElectromagnetismbull Electricity and magnetism are different facets of Electricity and magnetism are different facets of
electromagnetismelectromagnetismndash a moving electric charge produces magnetic fieldsndash changing magnetic fields move electric charges
bull This connection first elucidated by Faraday MaxwellThis connection first elucidated by Faraday Maxwellbull Einstein saw electricity and magnetism as frame-Einstein saw electricity and magnetism as frame-
dependent facets of dependent facets of unifiedunified electromagneticelectromagnetic force force
UCSD Physics 10
Spring 2008 3
Magnetic fields from electricityMagnetic fields from electricitybull A static distribution of charges produces an electric A static distribution of charges produces an electric
fieldfieldbull Charges in Charges in motionmotion (an electrical current) produce a (an electrical current) produce a
magnetic fieldmagnetic fieldndash electric current is an example of charges (electrons) in motion
UCSD Physics 10
Spring 2008 4
ElectromagnetsElectromagnetsbull Arranging wire in a coil and running a current Arranging wire in a coil and running a current
through produces a magnetic field that looks a lot through produces a magnetic field that looks a lot like a bar magnetlike a bar magnetndash called an electromagnetndash putting a real magnet inside can shove the magnet back
and forth depending on current direction called a solenoid
UCSD Physics 10
Spring 2008 5
Induced CurrentInduced Currentbull The next part of the story is that a The next part of the story is that a changingchanging
magnetic fieldmagnetic field produces an electric current in a produces an electric current in a loop surrounding the fieldloop surrounding the fieldndash called electromagnetic induction or Faradayrsquos Law
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 2
ElectromagnetismElectromagnetismbull Electricity and magnetism are different facets of Electricity and magnetism are different facets of
electromagnetismelectromagnetismndash a moving electric charge produces magnetic fieldsndash changing magnetic fields move electric charges
bull This connection first elucidated by Faraday MaxwellThis connection first elucidated by Faraday Maxwellbull Einstein saw electricity and magnetism as frame-Einstein saw electricity and magnetism as frame-
dependent facets of dependent facets of unifiedunified electromagneticelectromagnetic force force
UCSD Physics 10
Spring 2008 3
Magnetic fields from electricityMagnetic fields from electricitybull A static distribution of charges produces an electric A static distribution of charges produces an electric
fieldfieldbull Charges in Charges in motionmotion (an electrical current) produce a (an electrical current) produce a
magnetic fieldmagnetic fieldndash electric current is an example of charges (electrons) in motion
UCSD Physics 10
Spring 2008 4
ElectromagnetsElectromagnetsbull Arranging wire in a coil and running a current Arranging wire in a coil and running a current
through produces a magnetic field that looks a lot through produces a magnetic field that looks a lot like a bar magnetlike a bar magnetndash called an electromagnetndash putting a real magnet inside can shove the magnet back
and forth depending on current direction called a solenoid
UCSD Physics 10
Spring 2008 5
Induced CurrentInduced Currentbull The next part of the story is that a The next part of the story is that a changingchanging
magnetic fieldmagnetic field produces an electric current in a produces an electric current in a loop surrounding the fieldloop surrounding the fieldndash called electromagnetic induction or Faradayrsquos Law
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 3
Magnetic fields from electricityMagnetic fields from electricitybull A static distribution of charges produces an electric A static distribution of charges produces an electric
fieldfieldbull Charges in Charges in motionmotion (an electrical current) produce a (an electrical current) produce a
magnetic fieldmagnetic fieldndash electric current is an example of charges (electrons) in motion
UCSD Physics 10
Spring 2008 4
ElectromagnetsElectromagnetsbull Arranging wire in a coil and running a current Arranging wire in a coil and running a current
through produces a magnetic field that looks a lot through produces a magnetic field that looks a lot like a bar magnetlike a bar magnetndash called an electromagnetndash putting a real magnet inside can shove the magnet back
and forth depending on current direction called a solenoid
UCSD Physics 10
Spring 2008 5
Induced CurrentInduced Currentbull The next part of the story is that a The next part of the story is that a changingchanging
magnetic fieldmagnetic field produces an electric current in a produces an electric current in a loop surrounding the fieldloop surrounding the fieldndash called electromagnetic induction or Faradayrsquos Law
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 4
ElectromagnetsElectromagnetsbull Arranging wire in a coil and running a current Arranging wire in a coil and running a current
through produces a magnetic field that looks a lot through produces a magnetic field that looks a lot like a bar magnetlike a bar magnetndash called an electromagnetndash putting a real magnet inside can shove the magnet back
and forth depending on current direction called a solenoid
UCSD Physics 10
Spring 2008 5
Induced CurrentInduced Currentbull The next part of the story is that a The next part of the story is that a changingchanging
magnetic fieldmagnetic field produces an electric current in a produces an electric current in a loop surrounding the fieldloop surrounding the fieldndash called electromagnetic induction or Faradayrsquos Law
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 5
Induced CurrentInduced Currentbull The next part of the story is that a The next part of the story is that a changingchanging
magnetic fieldmagnetic field produces an electric current in a produces an electric current in a loop surrounding the fieldloop surrounding the fieldndash called electromagnetic induction or Faradayrsquos Law
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 6
The Electromagnetic ConnectionThe Electromagnetic Connection
bull A A changingchanging magnetic field produces an electric field and a magnetic field produces an electric field and a changing electric field produces a magnetic field changing electric field produces a magnetic field
bull Electric and Magnetic fields can produce forces on chargesElectric and Magnetic fields can produce forces on chargesbull An An acceleratingaccelerating charge produces electromagnetic waves charge produces electromagnetic waves
(radiation)(radiation)bull Both electric and magnetic fields can transport energyBoth electric and magnetic fields can transport energy
ndash Electric field energy used in electrical circuits eg released in lightning
ndash Magnetic field carries energy through transformer for example
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 7
Electromagnetic RadiationElectromagnetic Radiation
bull Interrelated electric and magnetic fields traveling through spaceInterrelated electric and magnetic fields traveling through spacebull All electromagnetic radiation travels at All electromagnetic radiation travels at cc = 3 = 3101088 ms ms in in
vacuum ndash vacuum ndash thethe cosmic speed limit cosmic speed limitndash real number is 2997924580 ms exactly
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 8
Whatrsquos ldquoWavingrdquo in EM wavesWhatrsquos ldquoWavingrdquo in EM wavesbull What medium transports sound wavesWhat medium transports sound waves
ndash Can there be sound waves in the vacuum of outer space
bull What medium transports water wavesWhat medium transports water wavesbull What medium transports radio wavesWhat medium transports radio wavesbull A topic of considerable debate in the late 1800rsquos and early A topic of considerable debate in the late 1800rsquos and early
1900rsquos1900rsquosbull Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible Led to the concept of the ldquoluminiferous etherrdquo ndash an invisible
ldquojellordquo that was thought to vibrate electromagnetically ldquojellordquo that was thought to vibrate electromagnetically bull Experiments that sought this ether didnrsquot find it Experiments that sought this ether didnrsquot find it bull This was quite a surpriseThis was quite a surprise
Electromagnetic waves travel through empty space
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 9
Examples of Electromagnetic RadiationExamples of Electromagnetic Radiation
bull AM and FM radio waves (including TV signals)AM and FM radio waves (including TV signals)bull Cell phone communication linksCell phone communication linksbull MicrowavesMicrowavesbull Infrared radiationInfrared radiationbull Light Light bull X-raysX-raysbull Gamma raysGamma raysbull What distinguishes these from one anotherWhat distinguishes these from one another
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 10
Uses of Electromagnetic WavesUses of Electromagnetic Wavesbull Communication systems Communication systems
ndash One-way and two-way
bull Radar Radar bull Cooking (with microwaves)Cooking (with microwaves)bull Medical Imaging (X rays)Medical Imaging (X rays)bull ldquoldquoNight Visionrdquo (infrared)Night Visionrdquo (infrared)bull Astronomy (radio Astronomy (radio wave IR visible UV gamma)wave IR visible UV gamma)
All that we experience through our eyes is conveyed byelectromagnetic radiationhellip
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 11
The Electromagnetic SpectrumThe Electromagnetic Spectrumbull Relationship between frequency speed and Relationship between frequency speed and
wavelengthwavelength f f = c = c ff is frequency is frequency is wavelength is wavelength cc is speed of light is speed of lightbull Different frequencies of electromagnetic radiation Different frequencies of electromagnetic radiation
are better suited to different purposesare better suited to different purposesbull The frequency of a radio wave determines its The frequency of a radio wave determines its
propagation characteristics through various mediapropagation characteristics through various media
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 12
US Frequency Allocation ndash the FCCUS Frequency Allocation ndash the FCC
(300 MHz has a wavelength of 1 meter)
ldquoRadiordquo frequency-space is allocated to the hiltHerersquos a sample region from 300ndash600 MHz
International allocation gets tricky
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 13
Generation of Radio WavesGeneration of Radio Waves
bull Accelerating charges radiate EM energyAccelerating charges radiate EM energybull If charges oscillate back and forth get time-varying fieldsIf charges oscillate back and forth get time-varying fields
E
+++
+
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 14
Generation of Radio WavesGeneration of Radio WavesIf charges oscillate back and forth get time-varying magnetic fields tooIf charges oscillate back and forth get time-varying magnetic fields tooNote that the magnetic fields are perpendicular to the electric field vectorsNote that the magnetic fields are perpendicular to the electric field vectors
B
+++
+
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 15
Polarization of Radio WavesPolarization of Radio Waves
B
ETransmitting antenna
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 16
Reception of Radio WavesReception of Radio Waves
Receiving antenna works best when lsquotunedrsquo to the
wavelength of the signal and has proper polarization
Electrons in antenna are ldquojiggledrdquoby passage of electromagnetic wave
B
E
Optimal antenna length is one quarter-wavelength (4)
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 17
QuestionsQuestions
Why are car radio antennas verticalWhy are car radio antennas vertical
Why are cell phone antennas so shortWhy are cell phone antennas so short
How do polarizing sunglasses workHow do polarizing sunglasses work
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
UCSD Physics 10
Spring 2008 18
AssignmentsAssignmentsbull Read Chapter 31 for FridayRead Chapter 31 for Friday
bull QO 4 due 523 by midnightQO 4 due 523 by midnight
bull HW 6 due 523 22E1 22E5 22E11 22E16 HW 6 due 523 22E1 22E5 22E11 22E16 22E20 22E30 22E33 22P1 23E3 26E7 22E20 22E30 22E33 22P1 23E3 26E7 26E9 26E1126E9 26E11
- Electromagnetism
- Slide 2
- Magnetic fields from electricity
- Electromagnets
- Induced Current
- The Electromagnetic Connection
- Electromagnetic Radiation
- Whatrsquos ldquoWavingrdquo in EM waves
- Examples of Electromagnetic Radiation
- Uses of Electromagnetic Waves
- The Electromagnetic Spectrum
- US Frequency Allocation ndash the FCC
- Generation of Radio Waves
- Slide 14
- Polarization of Radio Waves
- Reception of Radio Waves
- Questions
- Assignments
-
