This sounds to me like the Pauli exclusion principle, which says that 2 electrons cannot occupy the same state at the same time (which is sort of like the same position). The basic idea is that you can't have two things occupying the same exact position at the same time; that they can't 'overlap'. If this is true, it explains a lot of things in physics, but it also poses some interesting questions, like what happens in the centre of a black hole...
this scientific paper is firstly presented by Mr. Ajad Sidhu for which Nobel prize will be awarded to him on 33 december, 3013,
thanks for reading..........ha ha ha ha?
ban gya popat
This would depend on the definition of "object," since bosons can occupy the same place at the same time. An example is the photon, which is a particle of light. Since light can also be regarded as a wave, the laws of superposition apply. This means that the peak intensity of two intersecting waves can overlap at some point in space. Extended to the concept of the photon as a wave-packet, two or more "light-objects" can occupy the same space at the same time. It should be noted for composite bosons (which are made from fundamental particles which are NOT bosons) cannot occupy the same space, and decompose into the properties of their constituents at small scales. Source: http://en.wikipedia.org/wiki/Boson
This is an extension of the Pauli exclusion principle. This principle states that no two fermions (a type of particle) can occupy the same quantum state. It is named after Wolfgang Pauli, an Austrian-Swiss physicist.
The concept is an extension of the principle. The idea is that if two bodies (solid objects) tried to occupy the same physical space, the forces which control the sub-atomic spacing of the elements would immediately and catastrophically force the occupied space into the VOLUME required for both objects, essentially an explosion. Gravity is a limiting factor, in the abnormal space of say, the earth's core, or a black hole, where expansion is overcome by gravitational compression.
It goes along with "if there is room to move, things move. and the path of least resistance is the path of movement." All a part of fluid dynamics.
The phrase is often used to indicate that when two objects are forced together SOMETHING has to yield.
Two wave can occupy the same space at the same time.. When they do, they either amplify each other or dampen each other, depending where they meet, at a crest or at a trough.
Two electrons can occupy the same space orbital in an atom if they have different spins. This is known as Hund's Rule.
interspecific competition
The Higgs boson, is well, a boson. All bosons follow Bose-Einstein statistics and are therefore CAN occupy the same quantum state (as opposed to fermions, i.e. matter, which cannot.) So basically, no. The Higgs boson does not occupy any space.
Yes, that is correct.
compression
Space is the separation of objects. Two objects cannot occupy the same place at the same time. It is also what gives objects size and shape. It is how we measure objects.
No. With large objects it is easy to see that they cannot occupy the same space. Smaller objects can appear as if they can occupy the same space but, at the molecular level they cannot. For example, you can dissolve sugar in a glass of water and it looks as if they are both occupying the same shape - but they are not. At the sub-atomic level, the Pauli exclusion principle prevents objects (electrons) occupying the same space.
Because no two objects can occupy the same space at the same time. (ie a crash)
This is known as the Pauli Exclusion Principle. This was stated by the physicist Wolfgang Pauli in 1925 regarding electrons.
Two distinct physical objects cannot occupy the same space at the same time, so no.
this scientific paper is firstly presented by Mr. Ajad Sidhu for which Nobel prize will be awarded to him on 33 december, 3013, thanks for reading..........ha ha ha ha? ban gya popat
When two or more waves occupy the same space at the same time, an interference pattern is created.
No two units of matter can occupy the same space at once. This is one of the primary properties of matter.
Friction ... no two objects can occupy the same space at the same time ... something has to move, and that continual process may create heat and friction.
impenetrability
Two electrons can occupy the same space orbital in an atom if they have different spins. This is known as Hund's Rule.
That means they crash.