📐 Physical Quantities
  • Quantities that can be measured directly and indirectly
  • Expressed by a fixed number
  • e.g. Mass, Length, Force, etc.
🎯 Based on Direction & Magnitude
(a) Scalar Quantity
  • Only magnitude required
  • e.g. Distance, Speed, Mass, Work, Time, Energy, Electric current, Temperature, Pressure
(b) Vector Quantity
  • Both magnitude and direction required
  • e.g. Displacement, Velocity, Acceleration, Force, Momentum
⚠ Exam Trap
Speed = Scalar | Velocity = Vector. Distance = Scalar | Displacement = Vector. Mass = Scalar | Force = Vector. Dono pairs confuse karte hain!
📋 Based on Properties
Fundamental Derived Supplementary
Does NOT depend on other quantities Depends on fundamental quantities Apart from fundamental and derived; do not depend on others
Completely independent Derived with help of fundamental quantities Only 2 supplementary quantities
e.g. Length, Mass, Time e.g. Force, Work, Pressure e.g. Plane angle, Solid angle
📏 Systems of Units
System Also Called Length Mass Time Key Fact
FPS British System Foot Pound Second Developed in India: 1826. 1 Pound = 453 gm
CGS French / Metric System Centimeter Gram Second Implemented in India: 1956
MKS Meter Kilogram Second Developed in France
SI International System Meter Kilogram Second Developed 1960 at Intl. Weights & Measures conference, Paris (France). 7 basic + 2 complementary units
⚠ Exam Trap
SI system developed in 1960 at Paris. FPS = British, CGS = French/Metric. 1 Pound = 453 gm. SI has 7 fundamental + 2 supplementary units.
🔢 7 Fundamental (SI) Units
# Quantity Unit Symbol
1 Length Meter m
2 Mass Kilogram kg
3 Time Second s
4 Temperature Kelvin K
5 Electric Current Ampere A
6 Luminous Intensity Candela cd
7 Amount of Substance Mole mol
⚡ Quick Recall — Mnemonic
Length · Mass · Time · Temperature · Electric current · Luminous intensity · Amount of substance → LMT-TELA
➕ 2 Supplementary Units
Quantity Unit Symbol
Plane Angle Radian rad
Solid Angle Steradian sr
🌌 Important Experimental Units
Unit Value / Equivalent Used For
1 Light Year 9.46 × 10¹⁵ m Distance light travels in one year
1 Parsec 3.26 light years = 3.08 × 10¹⁶ m Astronomical distance
1 Astronomical Unit (AU) 1.496 × 10¹¹ m ≈ 1.5 × 10¹¹ m Earth-Sun distance
1 Angstrom (Å) 10⁻¹⁰ m Atomic scale distances
1 amu 1.66 × 10⁻²⁷ kg Atomic mass unit
1 Slug 14.59 kg FPS mass unit
1 Svedberg Unit 10⁻¹³ s Sedimentation rate
1 Chandrasekhar Limit 1.4 × mass of sun = 2.765 × 10³⁰ kg Maximum mass of white dwarf
1 Barrel 158.98 litres Volume (oil)
Dobson Unit Thickness of Ozone layer
British Thermal Unit (BTU) Heat
Cusec Flow of Water
Distance order:1 Parsec > 1 Light Year > 1 Astronomical Unit
⚠ Exam Trap
1 Parsec = 3.26 light years (NOT 3.26 AU). Parsec > Light year > AU. Dobson unit = Ozone layer thickness. Cusec = water flow. Chandrasekhar limit = 1.4 solar masses.
⚗️ Derived Quantities & Units
Quantity Unit Symbol Quantity Unit Symbol
Work / Energy Joule J Momentum kg·m/s kg-m/s
Force Newton N Surface Tension Newton/meter N/m
Power Watt W Potential Difference Volt V
Pressure Pascal Pa Electric Resistance Ohm Ω
Acceleration m/s² m/s² Electric Capacitance Farad F
Area Square meter Magnetic Flux Weber Wb
Volume Cubic meter Luminous Flux Lumen lm
Speed Meter/sec m/s Illuminance Lux lx
Angular Velocity Radian/sec rad/s Frequency Hertz Hz
Impulse Newton·sec Ns Electric Charge Coulomb C
⚠ Exam Trap
Work = Energy = Joule. Power = Watt. Force = Newton. Pressure = Pascal. Frequency = Hertz. Resistance = Ohm (Ω). Magnetic flux = Weber (not Watt!).
⚡ Quick Recall
Impulse = Force × Time = Ns = same as Momentum (kg·m/s). Both have same dimensional formula [MLT⁻¹].
🔟 Powers of 10 — Prefixes
⬆ LARGER (Positive powers)
Power Prefix Symbol
10¹⁸ Exa E
10¹⁵ Peta P
10¹² Tera T
10⁹ Giga G
10⁶ Mega M
10³ Kilo k
10² Hecto h
10¹ Deca da
⬇ SMALLER (Negative powers)
Power Prefix Symbol
10⁻¹ Deci d
10⁻² Centi c
10⁻³ Milli m
10⁻⁶ Micro μ
10⁻⁹ Nano n
10⁻¹² Pico p
10⁻¹⁵ Femto f
10⁻¹⁸ Atto a
⚡ Quick Recall — Mnemonic (Large → Small)
Every Person Trying Good Marks Keeps Hard Dedication → Exa Peta Tera Giga Mega Kilo Hecto Deca

Desi Chote Mile Meri Nanhi Pyari Fatima Aai → Deci Centi Milli Micro Nano Pico Femto Atto
⚠ Exam Trap
Mega = 10⁶, Giga = 10⁹, Tera = 10¹². Micro = 10⁻⁶, Nano = 10⁻⁹, Pico = 10⁻¹². Kilo = k (small k) but Kelvin = K (capital K) — different symbols!
📐 Dimensional Formula
  • Powers applied to symbols of fundamental units
  • Equation expressed by [M, L, T] = Dimensional formula
📋 Dimensional Formulae — Complete Table
Quantity Dimensional Formula Quantity Dimensional Formula
Density [ML⁻³T⁰] Velocity / Speed [M⁰LT⁻¹]
Momentum [MLT⁻¹] Acceleration [M⁰LT⁻²]
Force [MLT⁻²] Impulse [MLT⁻¹]
Pressure [ML⁻¹T⁻²] Work & Energy [ML²T⁻²]
Power [ML²T⁻³] Surface Tension [ML⁰T⁻²]
Frequency [M⁰L⁰T⁻¹] Stress [ML⁻¹T⁻²]
Coefficient of Viscosity [ML⁻¹T⁻¹] Modulus of Elasticity [ML⁻¹T⁻²]
Specific Heat [M⁰L²T⁻²K⁻¹] Resistance [ML²T⁻³A⁻²]
Electric Capacitance [M⁻¹L⁻²T⁴A²] Electric Field [MLT⁻³A⁻¹]
⚠ Exam Trap
Momentum = Impulse = [MLT⁻¹] (same formula!). Force = [MLT⁻²]. Work = Energy = [ML²T⁻²]. Power = [ML²T⁻³]. Pressure = Stress = Modulus of Elasticity = [ML⁻¹T⁻²] (teeno same!).
⚡ Quick Recall
Frequency = [T⁻¹] only (no M, no L). Surface tension = [MT⁻²] (no L). Density = [ML⁻³] (no T). Ye teen unique formulae yaad kar lo!
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