Sunday 25 March 2018

Section 2 d) Specification

2.19 identify common materials which are electrical conductors or insulators, including metals and plastics

Conductors:

  • Copper 
  • Lead
  • Molten or aqueous ionic compounds
  • Silver
  • Gold
  • Carbon

Insulators:

  • Rubber
  • Air 
  • Acrylic
  • Glass
  • Polyester
  • Paper


2.20 describe experiments to investigate how insulating materials can be charged by friction

Polythene and acetate rods experiment

  1. Rip up some pieces of paper and wave each of the rods near them. Nothing will happen.
  2. Rub the polythene rod with a duster. The electrons will transfer from the duster to the rod through friction, giving the rod a negative charge and the duster an equal positive charge. 
  3. Rub the acetate rod with a duster. The electrons will transfer from the acetate rod to the duster, giving it a negative charge and the rod an equal positive charge.
  4. Hold the rods near the paper individually. The pieces will be attracted to the rod. 
This can also be done by rubbing a balloon on a woolly jumper. The balloon can then attract small light objects, like ripped up paper or hair. 


2.21 explain that positive and negative electrostatic charges are produced on materials by the loss and gain of electrons

When rubbed together, friction is created between two objects. This force causes electrons to be transferred from on object to another, giving the objects equal but opposite charges.
These charges are electrostatic, meaning they do not flow.

2.22 understand that there are forces of attraction between unlike charges and forces of repulsion between like charges

Like charges repel, while opposite charges attract. These forces of attraction and repulsion weaken with distance.

2.23 explain electrostatic phenomena in terms of the movement of electrons

Electrostatic phenomena is the transfer of electrons from one object to another through friction. Positive particles never move; positive electrostatic charge is simply due to absence of negative particles.

2.24 explain the potential dangers of electrostatic charges, eg when fuelling aircraft and tankers

Electrostatic charges can cause sparks (this is what lightening is - buildup of electrostatic charge caused by friction between particles within the clouds that cause the bottom of the cloud to have a negative charge and the top to be negatively charged). These sparks can be very dangerous, for example when fueling a car or aircraft, a spark could cause an explosion. Because of this, electrostatic buildup in the tank is earthed by the metal fuel nozzle and earthing straps.

2.25 explain some uses of electrostatic charges, eg in photocopiers and inkjet printers.

Electrostatic charges can also be used to our advantage, for example in photocopiers and inkjet printers.

How an inkjet printer works:
  1. Tiny ink drops are forced out of a fine nozzle, the friction making them electrically charged.
  2. The charged drops are deflected as they pass through two oppositely charged metal plates.
  3. The drops are attracted to the plate with an opposite charge, and repelled from the similarly charged plate.
  4. The size and direction of the voltage across each plate is changed as each drop falls, causing them to land on different parts of the paper
How a photocopier works:
  1. An image of what you want to copy is projected onto a positively-charged image plate.
  2. Lighter parts of the image cause the charge to leak away in some parts of the paper.
  3. The positively charged parts of the image plate attract negatively charged black powder, which is then transferred onto positively charged paper.
  4. The paper is heated, causing the powder to stick.

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