• Mass:As an object is moved around the Earth it is the same object, made of the same molecules in the same order and that something about it remains constant. This is the amount of matter or “stuff” it contains.

This unchanging quantity is called the mass and is measured in kilograms. It is the quantity one is usually interested in when buying, say, fruit or vegetables.

4b. State that mass of a body resists change from its state of rest or motion.

• mass determines how difficult it is to change the motion of a body (e.g. to speed it up) and that is because it determines the inertia of the body.

• Its here we will talk about inertia:• Inertia: is the resistance of any physical object to a

change in its state of motion or rest, or the tendency of an object to resist any change in its motion. It is proportional to an object's mass.

• Lets have a look at a video to understand this concept:

• Weight:The weight of an object is the force of gravity on the object and may be defined as the mass times the acceleration of gravity, w = mg. Since the weight is a force, its SI unit is the newton.

4c. State that a gravitational field is a region in which a mass experiences a force due to gravitational attraction.

Gravity FieldsA field is a region in which a force is felt.

Gravity is a very mysterious force. Nobody knows why objects have this attractive force between them, even if they are far apart. This attraction occurs for any object with mass, however small. The force is very small, and always attractive. We never get a repulsive gravitational force.

• As an object journeys around the Solar System, the force of attraction to the nearest planet changes with the planet’s proximity and mass.

• On Earth this force is approximately 10 N for every kilogram of the object’s mass. Emphasise that it varies according to height above sea-level (the actual value is between 9.79 N/kg and 9.83 N/kg).

• At this stage an appropriate “definition” of the Newton is “the weight of an average apple” – use a fruit or vegetable that the pupils will be most familiar with.

• If the mass of 1 APPLE IS 20 GRAMS, WHAT DO YOU THINK WOULD BE ITS WEIGHT IN NEWTONS; (taking g=9.81m/s2)

4(d) Calculate the weight from the equation: weight = mass x gravitational field strength.

• Mass of 15 kg,• Weight=15 Kg x 10m/s =150 N• Mass 100g• 100g100/1000=0.1 Kg• Weight=0.1 Kg x 10=1 N

• Weight mass comparison

2

4e. Explain that weights, and therefore masses, may be compared using a balance.

• Emphasize that lever-arm balances compare unknown

weights/forces with the weight of a known mass. This is equivalent to comparing masses since W = mg. Would such a

balance be accurate on the Moon?• No, as g constantly changes.

4f. Describe how to measure mass and weight by using appropriate balances.

Spring balance:• A spring balance is used to weigh things. An object placed

on it will compress or bend a spring to a degree that depends upon the amount of weight, which can thereby be measured. The typical bathroom scale is an example of a spring balance.

• Spring balances measure the weight and deduce the mass assuming that g = 10 N/kg. Is this a valid assumption on the Moon?

Mass can be measured by:

• Using an electronic balance:

Volume of Regular Solids

• Revise, volume=?• Volume of a cube= l x l x l• Volume of a cuboids= l x b x h• Volume of a sphere= 4/3 () r• Find the volume of the following:

3

2

2

22

5 cm

4R=5cm

volume of a liquid?

Volume of Liquids:• Recall SI unit of volume is m , another popular unit is,

cm , liters, milli liters.

• You usually hear that your nestle bottle that you put on the dispenser is 20 liters, hence usually the volume of liquids is represented in liters, while that of solids is represented in meters cube or cm cube.

3 3

In order to measure volume of liquids, we use a measuring cylinders.

• How do we measure the volume of bolts and pebbles and coins?• In short, volume of irregular solids:

Ans.= 1. Fill half of the measuring cylinder with water.2. Note down the reading (volume), V13. Immerse a pebble in the cylinder.4. Note down the reading (volume), V25. Volume of pebble= V2-V1

You will notice that your volume is in ml, we will use our knowledge that 1

ml=1cm

• Does immersion in oil give a different value? • No! Since the change would remain the same in both liquids.

3

4h. Describe how to determine the density of a liquid, of a regularly shaped solid and of an irregularly shaped solid which sinks in water (volume by displacement).

Density of Regular Solids:

Calculate Mass:

Use one of the apparatus to compute the mass of regular objects:1. Spring balance (weight mass)2. Lever arm balance (weight mass)3. Electronic balance (mass)

Calculate Volume: using formula if you know it!

Calculate Density:

Density=Mass/volume= kg/m (in proper SI units)

3

Density of irregular solids:

Calculate Mass:

Use one of the apparatus to compute the mass of irregular objects:1. Spring balance (weight mass)2. Lever arm balance (weight mass)3. Electronic balance (mass)

Calculate Volume:

By immersing them in measuring cylinders as discussed.

Calculate Density:

Density=Mass/volume= kg/m3

Density of Liquids:Calculate Mass:

1. Take a measuring cylinder and measure its mass using: Spring balance, Lever arm balance, Electronic balance

2. Fill it with the liquid in question3. Measure the mass of the filled cylinder just the way you did in step 1.4. Subtract the value obtained in step 3 with the value obtained in step 1.5. This is your mass.

Calculate Volume:

Measure the volume using a measuring cylinder.

Calculate Density:

Density=Mass/volume= kg/m

3

• Summing up

• Foam Led bar• Volume=30cm Volume=30cm• Density= ? Density= ?• Same or Different?• Different because mass is different.

3 3

END