General Science - Physics

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Electrostatic forces are 10³⁶ times stronger than the Gravitational Forces for a fixed distance. Electrostatic forces may be attractive or repulsive depending upon the charges. Electrostatic forces are conservative forces and obey inverse square law.

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The Classical Physics includes the study of phenomena involving objects having finite size on terrestrial and astronomical scale. It includes subjects like Optics, Thermodynamics, Mechanics and Electrodynamics

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Gravitational Forces are the weakest forces in nature. They obey inverse square law as they vary inversely as the square of the distance between the two bodies. They are central forces and conservative forces. They operate over very long distances having an infinite range.

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Werner Heisenberg, a german Physicist, discovered the Uncertainity principle. As per the uncertainty principle, we cannot measure the position (x) and the momentum (p) of a particle with absolute precision. The more accurately we know one of these values, the less accurately we know the other. It represnts the effects of wave-particle duality on the properties of subatomic objects.

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The Atomic clock is based on the periodic vibrations produced in cesium atom. The atomic clock is also called as Cesium clock.

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kg m²is the unit of Moment of Inertia. The moment of inertia is a physical quantity which describes how easily a body can be rotated about a given axis. It is a rotational analogue of mass. Moment of Inertia = mass x (radius of gyration)²

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Pressure and Coefficient of Elasticity have the same unit i.e. N m^-2 (Newton per metre square) Other important units: Rate of Flow: m³s^-1 Acceleration: ms^-2 Rydberg constant: 1/m Gas constant: J/K Impulse: Ns Moment of Force: Nm

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The displacement is the shortest distance between the initial and final position of an object in the given time. The displacement of an object is a vector quantity. It can be less than or equal to the distance but can never be greater than the distance travelled by that object

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The branch of mechanics which deals with the study of motion of material objects without taking into account the factors which cause motion is called as Kinematics. The branch of mechanics which deals with the study of motion of material objects taking into account the factors which cause motion is called as Dynamics. The branch of mechanics which deals with the study of material objects at rest is called as Statics.