the line of force or field line direction is the path a small positive test charge would
DESCRIPTION
Electric field patterns. An electric field pattern can be produced by using semolina grains sprinkled on oil between + & - high voltage metal conductors. The line of force or Field line direction is the path a small positive test charge would follow if free to move. +. - PowerPoint PPT PresentationTRANSCRIPT
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The line of force or Field line direction is the path
a small positive test charge wouldfollow if free to move
Electric field patterns
An electric field pattern can be produced by
using semolina grains sprinkled on oil
between + & - high voltage metal conductors
![Page 2: The line of force or Field line direction is the path a small positive test charge would](https://reader035.vdocument.in/reader035/viewer/2022070405/56813dd9550346895da7a1a9/html5/thumbnails/2.jpg)
The line of force or Field line direction is the path
a small positive test charge wouldfollow if free to move
Electric field patterns
+
An electric field pattern can be produced by
using semolina grains sprinkled on oil
between + & - high voltage metal conductors
![Page 3: The line of force or Field line direction is the path a small positive test charge would](https://reader035.vdocument.in/reader035/viewer/2022070405/56813dd9550346895da7a1a9/html5/thumbnails/3.jpg)
The line of force or Field line direction is the path
a small positive test charge wouldfollow if free to move
Electric field patterns
+
+
An electric field pattern can be produced by
using semolina grains sprinkled on oil
between + & - high voltage metal conductors
90o
![Page 4: The line of force or Field line direction is the path a small positive test charge would](https://reader035.vdocument.in/reader035/viewer/2022070405/56813dd9550346895da7a1a9/html5/thumbnails/4.jpg)
The line of force or Field line direction is the path
a small positive test charge wouldfollow if free to move
Electric field patterns
+
+
+
An electric field pattern can be produced by
using semolina grains sprinkled on oil
between + & - high voltage metal conductors
90o
![Page 5: The line of force or Field line direction is the path a small positive test charge would](https://reader035.vdocument.in/reader035/viewer/2022070405/56813dd9550346895da7a1a9/html5/thumbnails/5.jpg)
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Same charges repel, different charges attract
Two types of charge
+
-
+- -
+
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Same charges repel, different charges attract
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How rubbing can produce static electricity
At the start each material has no overall charge.
Friction rubs electrons offthe cloth onto the surface atoms of polythene.
The polythenegains electronsand becomesnegativelycharged.
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However,acetatebecomes positively charged
Insulators do not have any delocalised electrons,
They are all firmly attached to individual atoms
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Here is a diagram of an atom of Helium:
NEUTRONPROTON
ELECTRON
What force keeps the electrons inside the atom?
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‘positive charges’
Region of excess Delocalised electrons
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Electrons in the metal object are repelled by the negatively charged rod
Because ‘like charges repel”
‘positive charges’
Region of excess Delocalised electrons
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Electrons in the metal object are repelled by the negatively charged rod
Because ‘like charges repel”
If the rod touches the conductor electrons flow off the rod and onto the conductor
leaving both objects negatively charged
‘positive charges’
Region of excess Delocalised electrons
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ELECTRICAL DISCHARGE
A charged conductor can be discharged by connecting it to earth.
+-
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If the voltage is highenough the air molecules will ioniseand a spark dischargeoccurs.
-
Ionisation is the ability to remove electrons from atoms leaving a trail of positive ions.
Electrical potential energy or potential difference between the conductor and the ground
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slowly and safely
( thick copper strip )
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An experiment to show that current is a moving charge
micro ammeter
Carbon coated ball on nylon thread
Van der Graff
generator
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An experiment to show that current is a moving charge
Carbon coated ball on nylon thread
++_
___
The negative charges on the metal plate attract the ball
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An experiment to show that current is a moving charge
Carbon coated ball on nylon thread
++_
___
The negative charges on the metal plate attract the ball
__
__
The ball receives negative chargeand is repelled away carrying the charges
across to the other plate
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An experiment to show that current is a moving charge
The faster the charges are carried across from one plate to the other the greater the current flows:
Charge = Current X Time
Q = I X T
Coulombs Amps seconds
For AS PHYSICS we said:
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Charge = Current X Time
Q = I X T
Coulombs Amps seconds
Example: Calculate the amount of charge flowing passed a point in a wirecarrying a current of 5 Amps in 10 minutes.
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Charge = Current X Time
Q = I X T
Coulombs Amps seconds
Example: Calculate the amount of charge flowing passed a point in a wirecarrying a current of 5 Amps in 10 minutes.
Q = I X T
Q = 5 x 10 x 60Q = 3000 Coulombs of charge
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
QUESTION
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
QUESTION
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
QUESTION
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
QUESTION
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The faster the charges are carried across from one plate to the other the greater the current flows:
Current flowing depends on :
* Charge on the ball
* Frequency of transfer
So: I = Q f = Charge Q
Time of one cycle
QUESTION
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Chips and Charge
Electrons are attracted onto the chips pins via ‘earthed’ fingers
If the ‘earth’ is removed the chips remain (oppositely )charged
– by induction !
Tiny circuits get damaged
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The line of force or Field line direction is the path
a small positive test charge wouldfollow if free to move
Electric field patterns
The electric field pattern can be produced by
using semolina grains sprinkled on oil
between + & - high voltage metal conductors
+
+
+
90o
![Page 39: The line of force or Field line direction is the path a small positive test charge would](https://reader035.vdocument.in/reader035/viewer/2022070405/56813dd9550346895da7a1a9/html5/thumbnails/39.jpg)
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