Laws Of Physics

By nature, laws of Physics are stated facts which have been deduced and derived based on empirical observations. Simply put, the world around us works in a certain way, and physical laws are a way of classifying that “working.”

Physical laws are just conclusions drawn based on years (or however long it takes) of scientific observations and experiments which are repeated over and over under different conditions to reach inferences which can be accepted worldwide. These are continuously validated by the scientific community over time.

Important LawsApplication of Laws Derivation of LawFAQs

Important Laws of Physics

Laws Of Physics
Lamberts Cosine Law Kelvin Planck Statement
Dalemberts Principle Clausius Statement
Law Of Conservation Of Mass Fouriers Law
Hubbles Law Bells Theorem
Boltzmann Equation Lagrangian Point
Beer Lambert Law Maxwell Relations
Van Der Waals Equation Carnots Theorem
Fermi Paradox Helmholtz Equation
Helmholtz Free Energy Ficks Law Of Diffusion
Raman Scattering Wiens Law
Dirac Equation Mach Number
Coulomb’s Law Avogadro’s Hypothesis
Law of Conservation of Energy Archimedes’ Principle
Biot-Savart Law Faraday’s Law
Ampere’s Law Faraday’s Laws of Electrolysis
Planck Equation Kirchhoff’s law
Kirchoff’s Second Law Newton’s law of universal gravitation
Maxwell’s Equations Bernoulli’s Principle
Electric Potential due to a Point charge Zeroth Law of Thermodynamics
Gauss’ Law First law of thermodynamics
Lenz’s Law Wein’s Displacement Law
Ohm’s Law Law of Equipartition of Energy
Joule’s Laws Laws of reflection
Brewster’s law Radioactive Decay Law
Bragg’s Law Murphy’s Law
Doppler Effect Einstein Field Equation
Casimir Effect Stefan-Boltzmann Law
Moseley’s Law Superposition Principle
Newton’s Laws of Motion Thermodynamics
Laws of Friction Heisenberg Uncertainty Principle
Pascal’s Law Wave-Particle Duality
Snell’s law Fermat’s Principle
Boyle’s Law Huygens’ Principle
Pascal’s Law Ideal Gas Law
Equivalence Principle Joule-Thomson Effect
Curie-Weiss Law Law of Conservation of Linear Momentum
Curie’s Law Wiedemann-Franz Law
Newton’s Second law of motion Newton’s First law of motion
Newton’s Third law of motion Continuity Equation
Chandrasekhar Limit Kirchhoff’s First Law

Application of Laws Of Physics

In the beginning, it was assumed that the earth was the centre of the universe. Then it was hypothesized that our sun is the centre of the universe. We now know that both these conclusions are wrong. The sun may be the centre of our solar system, but it is not the centre of the universe.

Another example is the odd behaviour of the planet, Mercury. Newton’s universal law of gravitation was able to explain all the other planets in the solar system but the orbit and rotational period of Mercury was a bit off, and for some time no one knew why. Later, Einstein came to the rescue with his general theory of relativity.

The different properties of laws of Physics which shed information about their nature are given below:

  • True, under specified conditions
  • Universal and do not deviate anywhere in the universe
  • Simple in terms of representation
  • Absolute and unaffected by external factors
  • Stable and appear to be unchanging
  • Omnipresent and everything in the universe is compliant (in terms of observations)
  • Conservative in terms of quantity
  • Homogeneous in terms of space and time
  • Theoretically reversible in time

Basic laws of physics that govern our universe can be categorized in two ways. Classical physics that deals with us, the surrounding environment and the observable universe around us. Apart from this, there is also atomic physics that deals with subatomic particles and their interactions (quantum mechanics).

Philosophiae Naturalis Principia Mathematica by Isaac Newton tells us the theories of classical mechanics and the theory of relativity by Einstein. Some of the other laws are the laws of thermodynamics and Boyle’s law of gas.

Whereas most people will simply give you a list of the laws, I’m not most people. We’ll take a look at the laws from their point of origin or wherever they were derived or conceptualized from. So put on seatbelts as things are gonna get interesting from here on!

Laws derived from Definitions

Few laws of science are derived from math definitions, for instance, the uncertainty principle, the principle of stationary action or causality. These laws are not mathematical as they are empirical and just explain what we perceive from our five senses.

Laws due to Mathematical Symmetries

The mathematical symmetries that are found in our nature, for instance, the rotational symmetry of space-time is reflected in the Lorentz transformation, the homogeneity of space is reflected in the conservation laws and the uniqueness of electrons is represented in the Pauli exclusion principle. Sometimes evidence appears in repeated experiments proving that the law is invalid or has loopholes, although it is highly unlikely that the physical laws would change.

Laws derived from Approximations

Sometimes general laws are modified or changed to form some of our physical laws. For instance, Special reactivity under low-speed approximations is Newtonian dynamics. General relativity in a low mass approximation is Newtonian Gravitation, when a situation that factors in large distances comes into play Quantum Electrodynamics is approximated into Coulomb’s law.

Laws derived from Symmetry Principles

Spacetime and such other symmetries result in mathematical consequences which are some approximated to create fundamental physical laws. For instance, when the symmetry of times shifts the conservation of energy is born as a consequence. The symmetry of space gives birth to the conservation of momentum.

To learn more about Physics and its laws, download BYJU’S-The Learning App.

Frequently Asked Questions on Laws Of Physics

How many laws of Physics are there?

There are so many laws of Physics which deal with various elements in the world. But all these laws of Physics are categorized into two:

  1. Classical mechanics: These laws deal with elements that are observable.
  2. Quantum mechanics: These laws deal with atomic and subatomic particles.

What are the three laws of Physics?

The three laws of Physics refers to Newton’s three laws of motion as follows:

  1. Newton’s first law
  2. Newton’s second law
  3. Newton’s third law

What are Newton’s three laws?

Newton’s three laws are as follows:

  1. Newton’s first law of motion: The law states that a body will remain at rest or in uniform motion on a straight line until an external force acts on it.
  2. Newton’s second law of motion: The law states that the rate of change of momentum is proportional to the external force acting on it.
  3. Newton’s third law of motion: The law states that for every action there is an equal and opposite reaction.

What are the seven laws of the universe?

Following are the seven laws of the universe:

  1. The law of mentalism (immutable)
  2. The law of correspondence (immutable)
  3. The law of vibration (immutable)
  4. The law of polarity (mutable)
  5. The law of rhythm (mutable)
  6. The law of cause and effect (mutable)
  7. The law of gender

How many laws of the universe are there?

There are 12 laws of the universe as follows:

  1. The law of divine oneness
  2. The law of vibration
  3. The law of action
  4. The law of correspondence
  5. The law of cause and effect
  6. Law of compensation
  7. The law of attraction
  8. The law of perpetual transmutation of energy
  9. Law of relativity
  10. Law of polarity
  11. Law of rhythm
  12. Law of gender

1 Comment

  1. Fantastic experience regarding topic of science,Thanks for co-operation.

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