Saturday, May 7, 2011

Basic Needs Of Living Things

Living things have many different needs. Birds need twigs to build a nest, fish need water to survive, your pet hamster needs a clean cage, and plants need sunlight to make food. All around us, living things are using their environment to fill these needs.
Living organisms need things to survive.
Living things often use other living things to satisfy needs, such as in the example of a lion, who uses his prey as food, or the bacteria in your body, which uses you as shelter. Other times, living things use non-living things to fulfill their needs. This might be the lizard who uses a crack in a cliff side to hide, or plants who use minerals from the soil to create food.
A beaver uses his environment to build a dam.
The Beaver Uses His Environment To Build A Dam.
All life forms have different needs. For example, most fish do not fly, and most birds do not swim, while most plants don't do either. However, all life forms do have a few of the same basic needs in common. Almost all living things need energy, food, water, oxygen, space, and the ability to maintain homeostasis.

Sunday, April 3, 2011

April is Science's Month

Activities of Science's Month (April):

1. Daily Queez (Monday to Thursday)
2. Scrap Book Competition
3. Handmade craft from recycle
4. 1 Malaysia Rocket Competition for:
     a) creativity
     b) highest after launced
5. Science Exbihition

Friday, February 11, 2011

Gases


A gas is one of the three states of matter .

Gases fact file
Gases can be compressed (this means they are squashy)
Gases flow easily
Gases always completely fill any container they are placed in
The most common gas is called air
Some gases, like methane, burn easily and are used as fuels for heating

This table shows the names and uses of some common gases
Name of gas
Some useful facts
Uses
Air is the gas all around us.
It is a mixture of several different gases, mainly nitrogen and oxygen.

Without air we cannot breath and fires won’t burn.
It supports balloons and aeroplanes.

Natural Gas
Natural gas comes from the ground.
It burns easily (flammable)
Natural gas is used as a fuel for heating.

Oxygen
About 1/5 of the air is oxygen.
Without oxygen we cannot breath and fires wont burn.
Oxygen is produced by plants (during photosynthesis).

Oxygen is used in hospitals to help us breathe.
It also used in welding and as rocket fuel.
Carbon dioxide
Carbon dioxide is needed by plants when they make food (during photosynthesis).
All living organisms breath out carbon dioxide when they make energy (from food).

Carbon dioxide is the gas in fizzy drinks. It is also used in fire extinguishers.
Nitrogen
Nitrogen is the main gas in air.
(about 80%)

Nitrogen is used to make plant food (fertilizer) and is also in explosives.

Water vapour
Water vapour is formed when water evaporates. There is lots of water vapour in the air we breathe out.

When water vapour in the air cools down it forms clouds.
Helium
There is a small amount of helium in the air.
It is a very light gas and is used in balloons to help them float

In balloons to help them float
Argon
There is a small amount of argon in the air.

Argon is the gas inside electric light bulbs

Quick test
Which gas is used up when things burn? 
Which can get compressed tghe most, a solid, liquid or gas? 
Name the most common gas ? 
What gas is needed by plants to make food? 
What gas is often put in fire extinuishers? 
Air does not weigh anything. True or False ? 

Electric Circuits


Simple Circuits


When we use wires to connect a battery with a bulb (or buzzer etc) and the bulb lights then we have a circuit
The inside of a wire is made of COPPER (which is a good conductor of electricity)
The copper wire is covered with coloured plastic (which is an insulator).


Example


Here is a circuit where a battery (sometimes called a cell) is connected to a bulb using wires.
Below is a circuit diagram of the same circuit using the correct symbols


The Cell 

Circuit symbol
The cell has a voltage which makes an electric current flow around the circuit.
The higher the voltage the greater the current



A 'battery' of cells

Symbol for a battery
Several cells joined together form a battery.


The bulb

Circuit symbol


The BULB
 A light bulb has a thin metal filament, often made out of tungsten, which glows very hot when an electric current flows through it.

If we use a higher voltage more current will flow and the filament gets hotter and glows brighter.
Too much current makes the filament melt (and the bulb ‘blows’).

How to join a bulb:

Circuit diagram
Two bulbs joined end to end (in series)
This is how christmas tree lights are joined together
If one bulb is unscrewed the other bulb will also go out


Circuit diagram
Two bulbs joined side by side (in parallel)
This is how the lights in a house are wired together.
If one bulb is unscrewed the other bulb will stay alight


Changing the brightness of a bulb 


Circuit diagram

Two cells makes the bulb brighter 
because there is a higher voltage


Circuit diagram
Two bulbs (in series) makes the bulbs dimmer because it is more diffcult for the electricity to flow



Making the wire longer will make the bulb dimmer



Circuit diagram

Two cells and two bulbs is the same brightness as one cell and one bulb


Using a switch


Circuit diagram
All the switch does is to break the circuit and switch everything off (or on)
It does not matter where we put a switch in the circuit.
A switch like this is sometimes called a SPST switch
( SPST=Single Pole Single Throw)




Sometimes a circuit does not work.
The three main causes for a circuit not working are:
  • A wire not connected (or broken)
  • The bulb 'blown'. This is when the filament has melted.
  • The batteries are dead (flat)

There is something wrong with each of the circuits below. can you see what it is? (Hold your mouse over the diagram to find out)
Wire not connected to the batteryWire joined to the bulb at the wrong place
Wire joined to the bulb at the wrong placeHere there is a 'short circuit'. The + and the - of the battery should not be joined together.
One of the batteries is the wrong way around

Microorganisms


Micro-Organisms


There is a group of living organisms that are so small we need a powerful microscope to see them.
They are called micro_organisms.
The main kinds of micro-organism are the bacteria, the fungus and a virus
Helpful micro-organisms:
Bacteria and fungi in soil help dead leaves rot.
The rotting leaves add food to the soil for plants to use.
Bacteria are used to make yogurt and cheese.
Yeast is used to make bread rise.
Yeast is also used to make wine and beer.
Harmful micro-organisms:
Bacteria and viruses can cause disease or illness.
They spread very easily from one person to another.
Bacteria in food can cause food poisoning.
Uncovered food can go mouldy.
Mould is a kind of fungus

and now in more detail........................
How micro-organisms can be helpful (friendly micro-organisms!)
Inside the soil there are millions of bacteria and fungi.
These bacteria and fungi feed on dead leaves and dead animals causing them break down (rot) and turn into simple chemicals.
The rotting leaves mix with the soil and provide food for the plants and form a vital part of the food chain.

Fact File
Soil containing lots of rotting leaves is often called loam.
Loam is dark in colour and crumbly. It is rich in food for plants
Bacteria and fungi from the soil are sometimes called decomposers
Yogurt is made by adding special bacteria to milk.
The milk is kept warm to help the bacteria multiply.
The bacteria feed on sugars in the milk and make acid which helps the milk thicken.

Fact File
In most yogurt the bacteria are still alive when it is eaten.
The bacteria in yogurt are good for your digestion
Bacteria (and sometimes fungi) are also used to make cheese.
When bread is made a micro-organism called yeast is added to the dough to make the bread rise.
The yeast feeds on sugars in the dough and make a gas called called carbon dioxide.
When the bread is cooked the yeast dies but the carbon dioxide gas stays in the bread and forms all the little bubbles that you see.

Fact File
Yeast is also used to make the alcohol in beer and wine. The carbon dioxide bubbles make the beer fizzy.

How micro-organisms can be harmful (nasty micro-organisms!)
Some illnesses, like a sore throat or tummy upset are caused by bacteria.
Other diseases, like chicken-pox, are spread by a tiny micro-organism called a virus.
Viruses are even smaller than a bacteria
They spread easily from one person to another.
Fact File
It is important to cover your mouth when sneezing and also to wash your hands after using the toilet to try and stop the spread of diseases.
The water from some rivers (specially in hot countries) can contain bacteria and should not be drunk until after it has been boiled (which kills the bacteria) 
Raw chicken can contain a bacteria called salmonella.
Salmonella causes food poisoning if you eat it

Fact File
It is important to cook chicken well to kill the salmonella.
If you eat chicken that is not cooked properly some of the bacteria may get into your gut and make you very ill.
Do not store raw food with cooked food as the salmonella can spread.
Bread (and other foods) will go mouldy if you leave it open to the air.
The mould is spread by tiny spores.
It is best to keep the bread wrapped to keep the spores away from it.

Fact File
The mould appears as blue or white blotches.
Mould is a kind of fungus 

Some bacteria
E.Coli bacteria
These live inside your gut and are normally very useful as they help you digest your food
Streptococci bacteria.
The streptococcus causes a sore throat

Magnets


Magnets
Magnets are pieces of metal that attract iron

Different types of magnet

Bar magnet
Horseshoe magnet

Button magnet

Every magnet has two poles
N= North seeking pole
S= South seeking pole


The poles of a magnet is where the magnetic force is the strongest.
Iron filings sticking to thepoles of a horseshoe magnet

A magnet has lines of magnetic force around it
When we sprinkle iron filings on to a piece of paper laid over the magnet we can see the magnetic field lines


Rules about magnetic poles

Poles that are different (unlike poles) attract each other

Poles that are the same (like poles) repel (push) apart