Measurement, Errors, Fractions, Integers, Order of accuracy

School Science Lessons
2024-05-23

International System of Units, SI units
(topic06a)
Contents
International System of Units, SI units, (French: Système international d'unités)
6.3.1.0 SI, The 7 base units
6.3.2.0 SI derived units
6.3.3.0 SI, Other derived units based on SI
6.3.4.0 SI, Units used with SI units (Area, Mass, Pressure, Volume)
6.3.5.0 SI, CGS and FPS conversion, metric conversion, (Table 6.3.6)
6.3.6.0 SI prefixes, Decimal fractions and multiples, (Table 6.3.5)

6.3.1.0 SI, The 7 base units
1. Length, 2. Mass, 3. Time, 4. Electric current, 5. Temperature, 6. Amount of substance, 7. Luminous intensity
The of measurement that form the basis of any system of measurement are the defined mechanical units of mass, length and time.
Some fundamental systems also include a unit of electricity.
Coordinate systems are used to define the position of a point on a plane using two co-ordinates or in space using three co-ordinates, e.g. Cartesian coordinate system.
Table 6.3.1 The 7 base units

Quantity	Dimension	Name of SI unit	Symbol
1. length	L	metre	m
2. mass	M	kilogram	kg
3. time	T	second	s
4. electric current	I	ampere	A
5. thermodynamic temperature	.	kelvin	K
6. amount of substance	.	mole	mol
7. luminous intensity	J	candela	cd

6.3.2.0 SI derived units
Acceleration, Angle (plane angle),
Density,
Electric capacitance, Electric charge, Electric potential difference, Electric resistance, Energy (work),
Force, Frequency,
Momentum,
Power, Pressure (stress),
Radioactivity,
Velocity (speed), Viscosity
These units are physical quantities formed from the base units.
Some of these units are as follows:
Table 6.3.2.0 SI derived units

Quantity	Dimension	Unit name	Symbol	Equivalent
1. Velocity (speed)	L T^-1	.	v	m s^-1
2. Acceleration	L T^-2	.	a	m s^-2
3. Momentum	M L T^-1	.	Mv	kg m s^-1
4. Force	M L T^-2.	newton	N	kg m s^-2 = J m^-1
5. Pressure (stress)	M L^-1T^-2	pascal	Pa	N m^-2
6. Energy (work)	M L²T^-2	joule	J	N m
7. Power	M L² T^-3	watt	W	J s^-1
8. Electric charge	.	coulomb	C	A s
9. Electric potential difference	.	volt	V	W A^-1.
10. Electric capacitance	.	farad	F	C V^-1
11. Electric resistance	.	ohm	ω	V A^-1
12. Frequency	T^-1	hertz	Hz	s^-1
13. Radioactivity	T^-1	becquerel	Bq	s^-1
14. Viscosity	M L^-1T^-1	poise	P	1 P = 0.1 NM^-2s
15. Density	M L^-3	.	kg m^-3	.
16. Plane angle	.	radian	rad	= 180^o / pi

6.3.3.0 Table 6.3.3.0 Other derived units based on SI

Physical quantity	Name of unit	Symbol
Surface tension	newton per metre	N m^-1
Electric field strength	volt per metre	V m^-1
Magnetic field strength	ampere per metre	A m^-1
Specific heat capacity	joule per kilogram kelvin	J kg^-1 K^-1
Concentration	mole per cubic metre	mol m^-3
Conductivity	mho or siemans	mho, ^-1 (s)

6.3.4.0 Table 6.3.4.0 Units used with SI units (Area, Mass, Pressure, Volume)

Physical quantity	Name of unit	Symbol	Definition of unit
Area	hectare	ha	10⁴ m²
Mass	tonne	t	10³ kg = Mg
Pressure	bar	bar	10⁵ N m^-2
Volume	litre	l	10^-3 m³ = dm³

6.3.5.0 SI, CGS and FPS conversion, metric conversion
CGS = centimetre-gram-second (system)
FPS = foot-pound-second (system) (British Weights and Measures Act, 1824)
The FPS unit of mass is the slug, i.e. the mass that will accelerate at 1 ft sec^-2 when a one pound force acts on it.
MK or MESA = metre, kilogram, second, (ampere)
Table 6.3.6 SI, CGS and FPS conversion, metric conversion

Physical quantity	CGS unit .	FPS unit .
Length (m = metre)	centimetre, 1 cm = 10^-2 m	foot, 1 ft = 0.3048 m
"	.	inch, 1 in = 2.54 × 10^-2 m
"	.	mile, 1 mile = 1.61 km
Mass (kg = kilogram)	gram, 1 g = 10^-3 kg	pound, 1 lb = 0.4536 kg
"	.	ounce, 1 oz = 28.35 g
"	.	ton, 1 ton = 1.016 × 10³ kg
Volume	1 cm³ = 10^-6 m³	1 ft³ = 2.832 × 10^-2 m²
" "	1 litre, L =10^-3 m³	1 in³ = 1.639 × 10^-5 m² 1 cubic inch = 16.39 cc
"	1 millilitre, 1 mL = 1 cm³
Density .	1 g cm^-3 = 10^-3 kg m^-3	.
Velocity or speed	1 cm s^-1 = 10^-2 m s^-1	.
"	100 km/hour	62.5 miles/hour
Force .	dyne, 1 dyne = 10^-5 N	.
Pressure, stress	1 dyne cm² = 10^-1 Pa	.
"	bar, 1 bar = 10⁵ Pa	1 bar = 750.07 mm Hg
"	millibar = 100 Pa	.
Energy, work (J = joule)	erg, 1 erg = 10^-7 J	.
Power (W = watt)	1 erg S^-1 = 10^-7 W	horsepower, 1 hp = 745.7 W
Viscosity .	poise, 1 P = 10^-1NM^-2s	.
Thermal energy	International calorie = 4.186 J	British thermal unit 1 BTU = 1.055 × 10³ J

6.3.6.0 SI prefixes, Decimal fractions and multiples
Table 6.3.5 SI prefixes, Decimal fractions and multiples

Symbol	Prefix	Decimal	Short scale	10ⁿ
Y	yotta	1 000, 000, 000, 000, 000, 000, 000, 000	septillion	10²⁴
Z	zetta	1 000, 000, 000, 000, 000, 000, 000	sextillion	10²¹
E	exa	1 000, 000, 000, 000, 000, 000	quintillion	10¹⁸
P	peta	1 000, 000, 000, 000, 000	quadrillion	10¹⁵
T	tera	1 000, 000, 000, 000	trillion	10¹²
G	giga	1 000, 000, 000	billion	10⁹
M	mega	1 000, 000	million	10⁶
k	kilo	1 000	thousand	10³
h	hecto	100	hundred	10²
da	deca	10	ten	10
.		1	one	10⁰
d	deci	0.1	tenth	10^-1
c	centi	0.01	hundredth	10^-2
m	milli	0.001	thousandth	10^-3
mu,	micro	0.000 001	millionth	10^-6
n	nano	0.000 000 001	billionth	10^-9
p	pico	0.000 000 000 001	trillionth	10^-12
f	femto	0.000 000 000 000 001	quadrillionth	10^-15
a	atto	0.000 000 000 000 000 001	quintillionth	10^-18
z	zepto	0.000 000 000 000 000 000 001	sextillionth	10^-21
y	yocto	0.000 000 000 000 000 000 000 001	septillionth	10^-24

Some people also want "hella" for 10²⁷.
Myria (10, 000) is no longer used.
Water is measured in kilolitres, megalitres and gigalitres, e.g. gigalitres per year, GL / Y.
A Short Scale "trillion" = a Long Scale, (now discarded), "billion",
A Short Scale "trillionth" = a Long Scale, (now discarded), "billionth".