Static Electricity (DP IB Physics)
Revision Note
Static Electricity
There are several methods by which electric charge can be transferred, such as
charging by friction
charging by electrostatic induction
charging by contact
Charging by Friction
When two insulators are rubbed together, electrons are transferred through friction
Depending on the materials, one insulator will become negatively charged and the other positively charged
For example, when a cloth and rod are rubbed together, electrons are transferred from the rod to the cloth
This occurs because negatively charged electrons are transferred from one material to the other
The material, in this case, the rod, loses electrons
Since electrons are negatively charged, the rod becomes positively charged
As a result, the cloth has gained electrons and therefore is left with an equal negative charge
Electrons are transferred onto the cloth by friction. The cloth becomes negatively charged and the rod becomes positively charged
Charging by friction is not limited to solid insulators, it can occur between any two substances e.g. liquid flowing in a pipe
Earthing
To prevent a transfer of charge through contact, both bodies can be grounded
This means they are connected electrically to the earth
If a charged body is grounded (earthed), it will discharge until it has a potential of 0 V
Earth Circuit Symbol
An Earth symbol in a circuit indicates a point that is kept at 0 V
Electrical appliances are kept safely at 0 V by connection to an earthed conductor, usually a wire made from copper, that allows a current to flow to the Earth
This is because a current will always take the path of lower resistance
Since copper has a lower resistance than, for example, a person, any build-up of charge will flow to the Earth through the copper wire rather than the person
Charging by Electrostatic Induction
Electrostatic induction is the separation of charge caused by a nearby charged object without any physical contact
Note: this is not the same as electromagnetic induction
When a charged object is placed near a material, electrons in the material move towards or away from the surface
This causes the charges within the material to be redistributed
As a result, one side of the material gains an excess of either positive or negative charges
Electrostatic induction can be observed using a comb and small pieces of paper
An everyday example of electrostatic induction is when a comb, previously charged by friction, is placed near small uncharged pieces of paper
The negative charge on the comb repels electrons away from the top of the paper, leaving the bottom negatively charged
The top of the paper is attracted towards the comb and the bottom of the paper is repelled
As the top of the paper is closer to the comb, the attractive force is larger than the repulsive force, so there is a resultant upward force
Charging a conducting sphere by induction
An initially neutral conducting sphere can become charged by induction
A charged rod is brought near the sphere without touching it and causes the charges on it to separate
The sphere is grounded to allow electrons to move onto, or away from the sphere
When the charged rod and earth connection are removed, the excess charge remains
When a charged rod is brought near a conducting sphere without touching it, a charge can be induced when the sphere is connected and then disconnected to the Earth
Charging by Contact
Charge can also be transferred when there is physical contact between two objects
It often occurs between a charged insulator and an earthed conductor, when
There is a large potential difference between the two objects
The insulator prevents the charge from flowing out into a neighbouring object
When the two objects touch, electrons flow from one to the other to reduce the potential difference between them
An example of charge transfer via contact is a 'shock' felt when touching a doorknob
Charge transfer by contact can be felt as a 'shock' when a charge builds up on a person which is allowed to flow when they touch an earthed metallic object, such as a door handle
Charging a conducting sphere by contact
An initially neutral conducting sphere can become charged by contact with a charged object
A charged rod is brought into contact with the sphere
Electrons are transferred from the rod onto the sphere
When the rod is removed, the excess charge remains
When a charged rod comes into contact with a conducting sphere, the charge flows between them
Dangers of Static Electricity
When the potential difference between two objects becomes very large
the electric field between them becomes strong enough to cause the breakdown of air
a current can flow as an electrical discharge (spark) through the air
This can be dangerous in certain situations, such as
electrocution e.g. by lightning
ignition of a fire or explosion by a spark
A spark may ignite an explosion or fire when close to a flammable gas or liquid, for example, when refuelling aeroplanes
The risk can be reduced by connecting the fuel tank to the Earth with a wire called the bonding line
The risks of sparks can be reduced when refuelling a plane by connecting a bonding line to the Earth to allow any excess build-up of charge to dissipate and travel to the ground
Examiner Tips and Tricks
Materials only become positively charged because of the loss of electrons, rather than the 'gain' of any positive charge, which is a common misconception.
If asked to explain how things gain or lose charge, you must discuss electrons and explain whether something has gained or lost them. Remember when charging by friction, it is only the electrons that can move, not any 'positive' charge, therefore if an object gains a negative charge, something else must have gained a positive charge.
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