A Scientific Law is the description of an observed phenomenon. It doesn't explain why the phenomenon exists or what causes it. The explanation of the phenomenon is called a Scientific Theory.
List Of Scientific Laws and Theories
- Archimede's principle - It states that a body when wholly or partially immersed in a liquid experiences an upward thrust that is equal to the weight of the liquid
displaced by it. Thus, the body appears to lose a part of its weight. This loss in weight is equal to the weight of the liquid displaced by the body.
- Aufbau principle - It states that in an unexcited atom, electrons reside in the lowest energy orbitals available to them.
- Avogadro's Law - It states that equal volumes of all gases under similar conditions of temperature and pressure contain an equal number of molecules.
- Brownian motion - It is a zigzag, irregular motion exhibited by small solid particles when suspended in a liquid or gas due to irregular bombardment by the liquid or gas molecules.
- Bernoulli's principle - It states that as the speed of a moving fluid, liquid or gas, increases, the pressure within the fluid decreases. The aerodynamic lift on the wing of an aeroplane is also explained in part by this principle.
- Boyles's Law - It states that temperature remaining constant, the volume of a given mass of a gas varies inversely with the pressure of the gas. Thus, PV = K (constant), where, P = Pressure and V = Volume.
- Charles's Law - It states that pressure remains constant, the volume of a given mass of gas increases or decreases by 1/273 part of its volume at 0-degree Celsius for each degree Celsius rise or fall of its temperature.
- Coulomb's Law - It states that the force of attraction or repulsion between two charges is proportional to the amount of charge on both charges and inversely proportional to the square of the distance between them.
- Heisenberg principle (uncertainty principle) - It is impossible to determine with accuracy both the position and the momentum of a particle such as an electron simultaneously.
- Gay-Lussac’s Law of combining volumes - Gases react together in volumes which bear simple whole-number ratios to one another and also to the volumes of the products, if gaseous — all the volumes being measured under similar conditions of temperature and pressure.
- Graham’s Law of Diffusion - It states that the rates of diffusion of gases are inversely proportional to the square roots of their densities under similar conditions of temperature and pressure.
- Kepler's Law - Each planet revolves around the Sun in an elliptical orbit with the Sun at one focus. The straight line joining the Sun and the planet sweeps out
equal areas in equal intervals. The squares of the orbital periods of planets are proportional to the cubes of their mean distance from the Sun.
- Law of Floatation - For a body to float, the following conditions must be fulfilled:
- The weight of the body should be equal to the weight of the water displaced.
- The centre of gravity of the body and that of the liquid displaced should be in the same straight line.
- Law of conservation of energy - It states that energy can neither be created nor destroyed but can be transformed from one form to another. Since energy
cannot be created or destroyed, the amount of energy present in the universe always remains constant.
- Newton's First Law of Motion - An object at rest tends to stay at rest, and an object in motion tends to stay in motion, with the same direction and speed in a
straight line unless acted upon by some external force.
- Newton's Second Law of Motion - The rate of change of momentum of a body is directly proportional to the force applied and takes place in the direction in which the force acts.
- Newton's Third Law of Motion - To every action, there is an equal and opposite reaction.
- Newton's Law of Gravitation - All particles of matter mutually attract each other by a force directly proportional to the product of their masses and inversely proportional to the square of the distance between them.
- Ohm's Law - It states that the current passing through a conductor between two points is directly proportional to the potential difference across the two points provided the physical state and temperature etc. of the conductor does not change.
- Pauli exclusion principle - It explains that no two electrons in the same atom or molecule can have the same set of quantum numbers.
- Raman effect - It is the change in wavelength that occurs when light is scattered by the atoms or molecules in a transparent medium.
- Tyndall effect - The scattering of light by very small particles suspended in a gas or liquid.
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