FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS.
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FOWLER CHAPTER 2LECTURE 3 ELECTRICAL QUANTITIES
AND UNITS
CHAPTER 2 ELECTRICAL QUANTITIES AND UNITS
COULOMB BASE UNIT OF CHARGE= ELECTRONSCHARGE SYMBOL =QABBREVIATION =C
ELECTRIC CURRENT (I) MOVEMENT OF CHARGED PARTICLES IN A SPECIFY DIRECTION
CAN BE +OR- LIKE CHARGES REPELUNLIKE CHARGES ATTRACK
+ CHARGE CAN BE + ION
- CHARGE IS AN ELECTRON
THESE CHARGES CAN MOVE THRU SOLIDSLIQUIDS OR GASES IN OUR MOST COMMON CONDUCTOR COPPER ONLY ELECTRONS CAN MOVE
1810256
CURRENT= Qt CHARGETIME
AMPERE ONE COULOMBSEC OR ELECTRONS SEC
1810256 P-17
P-22 sCA 11
SYMBOL I WAS CHOSEN BECAUSE IT WAS THOUGH TO REPRESENT THE INTENSITY OF ELECTRICITY IN A WIRE CURRENT MOVES AT LESS THAN THE SPEED OF LIGHT IN ANY WIRE
WHEN A ELECTRIC FIELD IS PLACED ACROSS A WIRE SAY FROM A BATTERY VALENCE ELCTRONS MOVE FROM ATOM TO ATOM CREATING + AND- IONS WHICH UNDER THE INFLUENCE OF THE ELECTRIC FIELD ALLOWS CURRENT TO FLOW
P-18
Basic Electricity - What is an amp httpwwwyoutubecomwatchv=8gvJzrjwjds
CURRENT FLOWING IN THE SAME DIRECTION ALL THE TIME IS KNOWN AS DIRECT CURRENT
+
_
0TIME
VOLTAGE
CURRENTS IN GASES
IN GASES UNDER THE INFULENCE OF A STRONG ELECTRIC FIELD + AND ndash CHARGES ARE FORMED ie + IONS AND ELECTRONS THIS IS CALLED IONIZATION
+-
++
++
--
--
- +
+
NEON FILLED TUBE IN A NEAR VACUUM NEON ATOM HAS 8 VALENCE ELECTRONS IN ITS OUTER RING
METAL PLATEMETAL PLATE
P-19
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
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- Slide 41
CHAPTER 2 ELECTRICAL QUANTITIES AND UNITS
COULOMB BASE UNIT OF CHARGE= ELECTRONSCHARGE SYMBOL =QABBREVIATION =C
ELECTRIC CURRENT (I) MOVEMENT OF CHARGED PARTICLES IN A SPECIFY DIRECTION
CAN BE +OR- LIKE CHARGES REPELUNLIKE CHARGES ATTRACK
+ CHARGE CAN BE + ION
- CHARGE IS AN ELECTRON
THESE CHARGES CAN MOVE THRU SOLIDSLIQUIDS OR GASES IN OUR MOST COMMON CONDUCTOR COPPER ONLY ELECTRONS CAN MOVE
1810256
CURRENT= Qt CHARGETIME
AMPERE ONE COULOMBSEC OR ELECTRONS SEC
1810256 P-17
P-22 sCA 11
SYMBOL I WAS CHOSEN BECAUSE IT WAS THOUGH TO REPRESENT THE INTENSITY OF ELECTRICITY IN A WIRE CURRENT MOVES AT LESS THAN THE SPEED OF LIGHT IN ANY WIRE
WHEN A ELECTRIC FIELD IS PLACED ACROSS A WIRE SAY FROM A BATTERY VALENCE ELCTRONS MOVE FROM ATOM TO ATOM CREATING + AND- IONS WHICH UNDER THE INFLUENCE OF THE ELECTRIC FIELD ALLOWS CURRENT TO FLOW
P-18
Basic Electricity - What is an amp httpwwwyoutubecomwatchv=8gvJzrjwjds
CURRENT FLOWING IN THE SAME DIRECTION ALL THE TIME IS KNOWN AS DIRECT CURRENT
+
_
0TIME
VOLTAGE
CURRENTS IN GASES
IN GASES UNDER THE INFULENCE OF A STRONG ELECTRIC FIELD + AND ndash CHARGES ARE FORMED ie + IONS AND ELECTRONS THIS IS CALLED IONIZATION
+-
++
++
--
--
- +
+
NEON FILLED TUBE IN A NEAR VACUUM NEON ATOM HAS 8 VALENCE ELECTRONS IN ITS OUTER RING
METAL PLATEMETAL PLATE
P-19
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
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- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
SYMBOL I WAS CHOSEN BECAUSE IT WAS THOUGH TO REPRESENT THE INTENSITY OF ELECTRICITY IN A WIRE CURRENT MOVES AT LESS THAN THE SPEED OF LIGHT IN ANY WIRE
WHEN A ELECTRIC FIELD IS PLACED ACROSS A WIRE SAY FROM A BATTERY VALENCE ELCTRONS MOVE FROM ATOM TO ATOM CREATING + AND- IONS WHICH UNDER THE INFLUENCE OF THE ELECTRIC FIELD ALLOWS CURRENT TO FLOW
P-18
Basic Electricity - What is an amp httpwwwyoutubecomwatchv=8gvJzrjwjds
CURRENT FLOWING IN THE SAME DIRECTION ALL THE TIME IS KNOWN AS DIRECT CURRENT
+
_
0TIME
VOLTAGE
CURRENTS IN GASES
IN GASES UNDER THE INFULENCE OF A STRONG ELECTRIC FIELD + AND ndash CHARGES ARE FORMED ie + IONS AND ELECTRONS THIS IS CALLED IONIZATION
+-
++
++
--
--
- +
+
NEON FILLED TUBE IN A NEAR VACUUM NEON ATOM HAS 8 VALENCE ELECTRONS IN ITS OUTER RING
METAL PLATEMETAL PLATE
P-19
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
CURRENT FLOWING IN THE SAME DIRECTION ALL THE TIME IS KNOWN AS DIRECT CURRENT
+
_
0TIME
VOLTAGE
CURRENTS IN GASES
IN GASES UNDER THE INFULENCE OF A STRONG ELECTRIC FIELD + AND ndash CHARGES ARE FORMED ie + IONS AND ELECTRONS THIS IS CALLED IONIZATION
+-
++
++
--
--
- +
+
NEON FILLED TUBE IN A NEAR VACUUM NEON ATOM HAS 8 VALENCE ELECTRONS IN ITS OUTER RING
METAL PLATEMETAL PLATE
P-19
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
CURRENTS IN GASES
IN GASES UNDER THE INFULENCE OF A STRONG ELECTRIC FIELD + AND ndash CHARGES ARE FORMED ie + IONS AND ELECTRONS THIS IS CALLED IONIZATION
+-
++
++
--
--
- +
+
NEON FILLED TUBE IN A NEAR VACUUM NEON ATOM HAS 8 VALENCE ELECTRONS IN ITS OUTER RING
METAL PLATEMETAL PLATE
P-19
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
AGAIN + AND ndash CHARGES SERVE AS CURRENT CARRIES UNLIKE GASESIN LIQUIDS BOTH + AND - CURRENT CARRIES ARE IONS
CURRENTS IN LIQUIDS
METAL PLATES
NaCl SOLUTION
-
-
-- -
-
+
+
++
++ +
- ARE Cl IONS
+ ARE Na IONS
A LIQUID THAT CAN CARRY CURRENT IS CALLED AN ELECTROLYTE (eg SEA WATERSULFURIC ACID IN CAR BATTERIES)
P-19
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
CURRENTS IN VACUUM
IN THIS CASE AN ELECTRON TUBE IS USED AS AN EXAMPLE
CATHODES ARE COATED WITH THORIUMBARIUM OR STRONTIUM
+
-
THERMIONIC EMISSION EMITTION OF ELECTRONS FROM A HEATED PLATE AS THE PLATE IS HEATED IT EMITS ELECTRONS WHICH ARE DRAWN TO THE POSITIVE PLATE BY THE ELECTRIC FIELD CREATED BY THE BATTERY ON A SIMPLE SCALE THIS IS HOW A CRT WORKS
+
-
P-21
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
ELECTRON MOVEMENT IN A TUBE FILAMENT
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
CLOSE UP VIEW OF A TUBE FILAMENT
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
VOLTAGE=EMF(ELCTROMOTIVE FORCE)=POTENTIAL DIFFERENCE(All mean the same thing)
KINETIC VS POTENTIAL ENERGY
KINETIC ENERGY OF MOTION OF AN OBJECTPOTENTIAL ENERGY STORED ENERGY OF AN OBJECT AT REST
P-23
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
STATIC ELECTRICITY IS POTENTIAL ENGERY (PE)
STATIC SPARK CONVERTS PE OF THIS SPARK INTO HEAT AND LIGHT
IN ELECTRICITY THE PE IS DUE TO THE ELECTRIC FIELD AND THE CHARGE SEPARATION BETWEEN TWO OBJECTS
YOU TUBEA cell phone and static electricity
Bill Nye The Science Guy on Static Electricity
wwwyoutubecomwatchv=gct1BmKNvU0wwwyoutubecomwatchv=Z-77IzaXGcg
A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
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A Van de Graaff generator is an electrostatic generator which uses a moving belt to accumulate very high voltages on a hollow metal globe on the top of the stand It was invented by American physicist Robert J Van de Graaff in 1929 The potential difference achieved in modern Van de Graaff generators can reach 5 megavolts
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 34
- Slide 35
- Slide 36
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- Slide 38
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- Slide 40
- Slide 41
ELECTROSTATIC ATTRACTION BETWEEN 2 CHARGED SPHERErsquoS
httpwwwyoutubecomwatchfeature=fvwpampv=THybl_QGsswampNR=1electric flux animation
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
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- Slide 34
- Slide 35
- Slide 36
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- Slide 38
- Slide 39
- Slide 40
- Slide 41
httpphetcoloradoeduensimulationballoons
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
TAKE ELECTROSTATIC PRECAUTIONS WHEN WORKING ON ANY ELECTRONIC EQUIPTMENT
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
ELECTRIC FIELD LINESSPHERE WITH EXCESS POSITIVE CHARGES
SPHERE WITH EXCESS NEGATIVE CHARGES
THE PE IS DUE TO THE ELECTRIC FIELD AND ELECTRIC CHARGE BETWEEN TWO OBJECTS THIS FIELD CREATES A POTENTIAL DIFFERENCE
AS ELECTRONrsquoS MOVE ACROSS THE ELECTRIC FIELD WORK IS DONE ENERGY IS LOSS MOVING FROM ndash TO +
-
SHOW MU29 13001630 httpwwwyoutubecomwatchv=PeBPPudNpAw
P-24
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
UNIT OF VOLTAGE (V) VOLT
WE NEED A WAY TO INDICATE THE PE DIFFERENT BETWEEN THE TERMINALSOF OUR BATTERY
ENERGY IS TRANSFORMED BY CHARGES(ELECTRICAL) ACROSS THE BATTERY TERMINAL
SINCE THE BASE UNIT OF ENERGY IS THE JOULE AND THE BASE UNIT OF CHARGE IS THE COULOMB
WE CAN DEFINE VOLTAGE AS JOULECOULOMB
V=JOULECOULOMB
V= ENERGYCHARGE= WQ
OR W=VQ
W(WORK OR ENERGY)= VQ
P-25
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
EXAMPLE D CELL BATTERIES ARE RATED AT 15V A FLASHLIGHT WITH 2D CELLS = 3 V
WHAT DOES THIS MEAN
WHEN THE FLASHLIGHT IS ON WITH A POTENTIAL DIFFERENT OF 3V
V = JC 3 JOULES OF ENERGY IS CARRIED BY 1 COULOMB OF CHARGE WHICH ARE CONVERTED TO HEAT AND LIGHT
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
BATTERIES
THERE IS A PE DIFFERENT BETWEEN THE + AND ndash TERMINALS OF THE BATTERY WHEN CURRENT FLOWS WORK IS DONE P E IS CONVERTED INTO ANOTHER FORM OF ENERGY IN THIS CASE AS HEAT IN THE RESISTOR
BATTERY IS DISCHARGING BATTERY IS CHARGING
DIRECTION OF ELECTRON FLOW ELCTRON FLOW IS REVERSED
+
־ +
־P-26
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
POLARITY HELPS TO INDICATE WHICH DIRECTION CURRENT IS FLOWING CAN BE + OR -
WHEN TERMINALS ARE IDENTIFIED ON A ELECTRONIC DEVICE IT IS SAID TO BE POLARIZED
POLARITY MUST BE CORRECT FOR THE DEVICE TO WORK IF THE DEVICE IS CONNECTED BACKWARD IT IS SAID TO BE IN A STATE OF REVERSE POLARITY AND NO CURRENT WILL FLOW
The Mechanical Universe - 31 ndash Voltage Energy and Force 600-8001215-1400
httpwwwyoutubecomwatchv=jnWc_6PqJ6I
P-25
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
SOURCES OF VOLTAGE
REMEMBER ONE FORM OF ENERGY MUST BE CONVERTED TO ANOTHER TO CREATE VOLTAGEEXAMPLEPOWER PLANT GENERATORS
COAL
NUCLEAR
HYDROELECTRIC
CONVERT MECHANICAL ENERGY INTOELECTRICAL ENERGY
SOLAR
P-26
GEOTHERMAL
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
OTHER WAYS TO GENERATE ELECTRICITY
CRYSTALS (VIA THE PIEZOELECTRIC EFFECT)
BY VARYING PRESSURE APPLIED TO CRYSTALS CAN CREATE ELECTRICITY USESPHONOGRAPH PICKUPS MICROPHONES
IN MIRCOPHONES SOUND ENERGY IS CONVERED TO MECHANICALENERGY WHICH IS APPIELD TO A CYRSTAL TO CREATE ELECTRICITY
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
THERMOCOUPLE(SEEBECK EFFECT) THE DIFFERENT IN TEMPERTUREBETWEEN TWO MATERIALS(USUALLY METALS OR SEMICONDUCTORS)CAN BE CONVERTED INTO ELECTRICITY
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
- Slide 9
- Slide 10
- Slide 11
- Slide 12
- Slide 13
- Slide 14
- Slide 15
- Slide 16
- Slide 17
- Slide 18
- Slide 19
- Slide 20
- Slide 21
- Slide 22
- Slide 23
- Slide 24
- Slide 25
- Slide 26
- Slide 27
- Slide 28
- Slide 29
- Slide 30
- Slide 31
- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
YOU TUBE Thermocouples httpwwwyoutubecomwatchv=gtO0kQ-PT_0
RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
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- Slide 8
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RESISTANCE OPPOSITION TO CURRENT FLOW IN A MATERIAL ELECTRICAL ENERGY IS CONVERTED INTO HEAT
CONDUCTORS OFFER LITTLE RESISTANCE TO CURRENT FLOW WHY DO TO THE EASE AS WHICH VALANCE ELECTRONS CAN BE RELEASED FROM THE OUTER SHELL OF AN ATOMGOOD CONDUCTORS SILVERGOLDALUMINIUMCOPPERBAD CONDUCTORS RUBBERWOODCERAMIC MATERIAL GLASS
INSULATORS HAVE HIGH RESISTANCE TO CURRENT FLOW
A BAD CONDUCTOR IS A GOOD INSULATOR
P-26
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 40
- Slide 41
MOST INSULATORS ARE COMPOUNDS OF TWO OR MORE ELEMENTS THEYSHARE ELECTRONSBY COVALENT BONDING(MAKES IT HARDER FOR ELECTRONS TO BE FREED)
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
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- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
METAL CONDUCTORSGLASS INSULATORS
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
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- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
UNIT OF RESISTANCE IS THE OHM Ω
1 Ω AMOUNT OF RESISTANCE IN A MATERIAL WITH 1 VOLT APPLIED WITH A CURRENT FLOW OF 1 AMP
4 FACTORS THAT EFFECT RESISTANCE 1 TYPE OF MATERIAL 2 LENGTH OF OBJECT 3 CROSS SECTIONAL AREA 4 TEMPERATURE OF OBJECT
httpphetcoloradoedusimsresistance-in-a-wireresistance-in-a-wire_enhtml
ALR
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
AS TEMPERATURE INCREASES SO DOES THE RESISTANCE
TEMP COEFFICENT THE CHANGE IN RESISTANCE OF A MATERIAL AS THE TEMPERATURE INCREASES OR DECREASES
MOST MATERIALS HAVE + TEMP COEFF ie AS TEMP uarr SO DOES THE RESISTANCESOME HAVE ndash TEMP COEFF (EXAMPLE CARBON)
TEMP COEFFICENT IS EXPRESSED AS THE CHANGE OF RESISTANCE(IN OHMS) PER PPM (PART PER MILLION) Cdeg
RESISTIVITYTHE RESISTANCE OF A MATERIAL AS DEFINED BY A CERTAIN SIZE OF THE MATERIAL CAN BE 1cmsup3 1msup3 1ftsup3
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
THE RESISTIVITY UNIT IS THE Ωcm SEE APPENDIX E P479 THE LOWER THE RESISTIVITY THE BETTER CONDUCTOR IT IS
RESISTIVITY x LENGTHCROSS SECTIONAL AREAA
LR
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
RESISTORS USED IN CIRCUITS TO CONTROL THE FLOW OF CURRENT
RANGElt1Ω TOgt1 MILLION ΩrsquoSRSISITANCE IN CIRCUIT WIRES IS SO SMALL THAT IT DOSENrsquoT AFFECT THE PERFORMANCE OF THE CIRCUIT
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
- Slide 2
- Slide 3
- Slide 4
- Slide 5
- Slide 6
- Slide 7
- Slide 8
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- Slide 32
- Slide 33
- Slide 34
- Slide 35
- Slide 36
- Slide 37
- Slide 38
- Slide 39
- Slide 40
- Slide 41
A heating element converts electricity into heat through the process of Joule heating Electric current through the element encounters resistance resulting in heating of the element
httpswwwyoutubecomwatchv=WYcw_DcZsakHow a Toaster Works
Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
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Knife into toaster FAIL httpswwwyoutubecomwatchv=So7I70Z0uCU
Most heating elements use Nichrome 8020 (80 nickel 20 chromium) wire ribbon straight or coiled Nichrome 8020 is an ideal material because it has relatively high resistance and forms an adherent layer of chromium oxide when it is heated for the first time Material beneath this layer will not oxidize preventing the wire from breaking or burning outUsed in common items such as toasters and hair dryers furnaces for industrial heating floor heating roof heating pathway heating to melt snow dryers etc
POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
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POWERENERGY IS ABILITY TO DO WORK A GAGE OF HOW ENERGY IS CONVERTED FROM ONE FORM TO ANOTHERPOWER CAN ALSO BE THOUGHT OF AS THE RATE OF USING ENERGY OR WORK
HOW DO WE MEASURE THIS IN A PRACTICAL WAYLIKE THIS HOW MUCH ENERGY IS BEGING USED IN A GIVEN TIME
UNIT OF POWER IS THE WATT (W)
WATT = 1 JOULE SECOND = 1 JS POWER (P) =Wt = ENERGY TIME
WATTSECOND = 1 J SS =1 J JOULE IS A TINY AMOUNT OF ENERGY POWER COMPANIES USES KILOWATT-HOUR INSTEAD OF WATTSECOND
P-30
OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
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OLD ANALOG POWER METER NEW DIGITAL POWER METER
- FOWLER CHAPTER 2 LECTURE 3 ELECTRICAL QUANTITIES AND UNITS
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