Units And Dimensions
Introduction to Units and Dimensions
Every measurement has two parts: a number (n) and a unit (u). The equation for this is Q = nu. For example, the length of an object is expressed as 40 cm, where the number expressing the magnitude of the physical quantity is inversely proportional to the unit selected.
If n1 and n2 are the numerical values of a physical quantity corresponding to the units u1 and u2, then n1u1 = n2u2.
For Example: 2.8 m = 280 cm; 6.2 kg = 6200 g.
Table of Contents
What is the Dimensional Formula?
Limitations of Dimensional Analysis
Dimensional Formulas for Physical Quantities
Quantities Having Same Dimensional Formula
Applications of Dimensional Analysis
Frequently Asked Questions on Dimension Analysis
Fundamental and Derived Quantities
Fundamental quantities are those that are independent of other quantities. The fundamental units used to measure these quantities are divided into four systems of units: C.G.S, M.K.S, F.P.S, and SI.
Derived Quantities are quantities that are derived from the fundamental quantities. The Derived Units used to measure these derived quantities are also derived from the fundamental units.
Fundamental and Supplementary Physical Quantities in the SI System
| Fundamental |— title: “Units And Dimensions” link: “/units-and-dimensions” draft: false
Introduction to Units and Dimensions
Every measurement has two parts. The first is a number (n), and the next is a unit (u). Q = n*u. For Example, the length of an object = 40 cm. The number expressing the magnitude of a physical quantity is inversely proportional to the unit selected.
If n1 and n2 are the numerical values of a physical quantity corresponding to the units u1 and u2, then it can be said that n1u1 = n2u2. For example, 2.8 m = 280 cm; 6.2 kg = 6200 g.
Table of Contents
What is the Dimensional Formula?
Limitations of Dimensional Analysis
Dimensional Formulas for Physical Quantities
Quantities Having Same Dimensional Formula
Applications of Dimensional Analysis
Frequently Asked Questions on Dimension Analysis
Fundamental and Derived Quantities
Fundamental quantities are those that are independent of other quantities. The units used to measure these fundamental quantities are known as fundamental units. There are four systems of units, namely C.G.S, M.K.S, F.P.S, and SI.
The quantities derived from the fundamental quantities are referred to as derived quantities, and the units used to measure these derived quantities are called derived units.
Fundamental Physical Quantities in the SI System
- Length
- Mass
- Time
- Electric current
- Temperature
- Amount of substance
- Luminous intensity
Supplementary Physical Quantities in the SI System
- Plane angle
- Solid angle
- Frequency
- Force
- Pressure
- Energy
- Power
| Fundamental |
NEET NCERT Solutions (Physics)
- Acceleration Due To Gravity
- Capacitor And Capacitance
- Center Of Mass
- Combination Of Capacitors
- Conduction
- Conservation Of Momentum
- Coulombs Law
- Elasticity
- Electric Charge
- Electric Field Intensity
- Electric Potential Energy
- Electrostatics
- Energy
- Energy Stored In Capacitor
- Equipotential Surface
- Escape And Orbital Velocity
- Gauss Law
- Gravitation
- Gravitational Field Intensity
- Gravitational Potential Energy
- Keplers Laws
- Moment Of Inertia
- Momentum
- Newtons Law Of Cooling
- Radiation
- Simple Harmonic Motion
- Simple Pendulum
- Sound Waves
- Spring Mass System
- Stefan Boltzmann Law
- Superposition Of Waves
- Units And Dimensions
- Wave Motion
- Wave Optics
- Youngs Double Slit Experiment