1. MEASUREMENT

2. MEASUREMENT
Measurement is the determination of the dimensions,quantity or capacity of an item.
To measure physical quantities such as mass,time,length etc we use UNITS.
A unit is a fixed quantity used as a standard for measurement.

3. Fundamental Quantities
Derived Quantities
The physical quantities which do not depend upon other quantities are called fundamental quantities.
Fundamental quantities are mass, length, time, temperature, luminous intensity, current and amount of substance
Units of physical quantities which may be derived from fundamental units are called derived units.
Unit of area( area = length × breadth) Unit of Velocity(displacement/time)

4. Systems of Units : There are following principle system of units:
C.G.S System : length ? centimeter (cm), mass ? gram (g) time ? second (s).
F.P.S System : length ? foot (ft), mass ? pound (lb), time ? second (s).
M.K.S. System: length ? meter (m), mass ? kilogram (kg), time ? second (s)

5. SI UNITS…

6. MASS Mass of a body is defined as the quantity of matter in the body.
We express mass of an object in gram (g)
kilogram (kg) , tonne , quintal etc
The SI unit of mass is kilogram.
 Mass of an object does not change from place to place.

7. UNITS OF MASS
Some of the commonly used units of mass and conversions are :
1 tonne = 10 quintal
1 quintal = 100 kg
1 kg = 1000 g
1 g = 1000 mg

8. Measurement of mass

9. Beam balance
A beam balance consists of a horizontal beam , supported at its centre.
Two pans of equal masses are suspended from both the ends of the beam.
The object is kept on one pan and the standard masses on the other.
When both the pans are equally loaded , the beam is horizontal and the pointer points vertically up at the center.

10. Physical balance

11. Physical balance
Physical balances are utilized for precision mass measurement .
A physical balance can measure accurately upto a milligram.
It is provided with a box of standard masses ranging from 1mg to 100g.
It works on the same principle as that of a beam balance.

12. WEIGHT Weight is the force exerted on a body by gravity.
This is often expressed in the formula
W = mg, where W is the weight, m the mass of the object, and g gravitational acceleration
The SI unit of weight is Newton(N)

13. Measurement of weight Spring balance

14. Measurement of weight
A spring balance is used to measure weight of a body
It consists of a spring fixed with a pointer at the upper part and a hook at the lower end to suspend the body
The extension produced in a spring is directly proportional to the gravitational force acting on it.

15. Comparison between mass and weight
Amount of matter present in the body
SI unit is kg
Measured using a beam balance
Does not vary with place
Gravitational force on a body
SI unit is Newton (N)
Measured using a spring balance
Weight varies with place

16. DENSITY The density of a material is its mass per unit volume.
The symbol most often used for density is ρ (the lower case Greek letter rho).
ρ =m/V
where ρ is the density, m is the mass, and V is the volume.
The SI unit of density is kg/m3

17. Density of different substances

18. Question???
Equal masses of iron and common salt have different volumes.

19. Determining the density of a irregular solid
For an irregular solid like a stone, volume can be found using a graduated measuring cylinder.
The measuring cylinder is half filled with water and the initial water level is noted
Then the stone is immersed in water with the help of a thread and the reading of the water level is noted
The mass of the stone is determined using a physical balance

20. Thus the density of the stone is found using formula D=M/(Final volume-Initial volume)

21. RELATIVE DENSITY
Relative density, or specific gravity, is the ratio of the density (mass of a unit volume) of a substance to the density of a given reference material.
It tells us how dense or heavy is the density of a substance with respect to water
Relative density has no units

22. Measurement of relative density of a liquid
The relative density of a liquid can be determined with the help of a relative density bottle

23. Relative density bottle
It is a small, thin walled glass bottle with a stopper having a fine hole.
The mass( m1 ) of the empty bottle is determined using a physical balance.
The liquid whose density is to be measured is filled into the bottle and its mass( m2 ) is determined.
Now clean the bottle thoroughly and find the mass of bottle when it is filled with water(m2 )

24. Calculating RD RD=Density of liquid Density of water
=Mass of liquid/Volume of liquid
Mass of water/Volume of water
= (m2 – m1 ) / (m3 – m1 )

25. Practical application of relative density
Looking at the RD of different substances we can find whether an object or a liquid sinks or floats in water.
If a substance‘s RD is less than one it floats in water.
If a substance‘s RD is more than one it sinks in water.

26. HYDROMETER Hydrometer is a device designed to float on a liquid
There are special hydrometers for liquids lighter and denser than water, for testing the purity of milk, for testing the concentration of acids in batteries.

27. Reference http://www.convertunits.com/
(conversion)
rine/MathResources3- 6/Math_Measurement.htm#LENGTH
(interactive)
i/squizzes/physics/measure1.tdf?0 (quiz)