Quantum of matter

Matter provides substance to all ‘quanta of matter’. Quantum of matter is a very small bit of matter. Matter-content of a quantum of matter provides its objective reality and positive existence in space. A quantum of matter exists in all spatial dimensions, however small such measurements may be. Different quanta of matter may contain different quantities of matter. Quanta of matter are perpetual entities. They cannot be destroyed or created. There are infinite numbers of quanta of matter and they fill the entire space in definite structural forms. No other imaginary particles or assumed properties are envisaged in this concept. Due to inherent ability of matter to exist, matter-contents at nearest points (within a quantum of matter or between quanta of matter in direct contact in the same spatial dimensions) have a tendency to merge (similar to an adhesive property). Matter-content of a quantum of matter tends to maintain its integrity under all conditions. Each quantum of matter is an independent matter-body and it keeps its individuality. In its free state, a quantum of matter is a one-dimensional body with length as its only tangible measurement. Although it may be understood as one-dimensional object, it exists in space as a real body. As a real object, it has its existence in all spatial dimensions. In its one-dimensional status, its measurements in all higher spatial dimensions are negligible compared to its length. Majority of quanta of matter in nature are of somewhat equal matter-contents. Quanta of matter, existing in different spatial dimensions and intersecting at a point, are able to co-exist at the point of their intersection. They cannot intersect in the same spatial dimensions. Due to the adhesive property of its matter-content, a free quantum of matter tends to grow in one spatial dimension, while reducing its measurements in all other spatial dimensions. If left free, in free space, a quantum of matter will grow in length indefinitely, while reducing magnitudes in other spatial dimensions. Since matter cannot be compressed, reduction of its measurement in one spatial dimension is bound to increase its spatial dimension in another spatial dimension. Even though, spatial dimensions of a quantum of matter, other than its single spatial dimension, are negligibly small, a quantum of matter has positive existence in all three spatial dimensions. Thus, a free quantum of matter is a one-dimensional matter-body with positive existence in all spatial dimensions. It has a body and two ends. Reducing the length of a free quantum of matter, by external efforts, compels it to grow into second spatial dimension. Similarly, reducing the area of a 2D quantum of matter, in its spatial plane, by external effort compels it to grow into the third spatial dimension. It is at this juncture that the real 3D matter, as we know, is created. Although quanta of matter in their 1D status are real matter-bodies with positive existence in space, their measurements in all spatial dimensions are too small to be tangible by our standards. Because of this difficulty, we are unable to appreciate their real existence in 3D spatial system. We may consider quanta of matter in their 1D and 2D states as functional entities. All superior 3D matter-bodies are formed by groups of quanta of matter. Their diverse properties are natural extensions of characteristic properties of quanta of matter. Entire space (outside 3D matter-particles) is filled with quanta of matter in definite structural formations. Creation, development, destruction and apparent interactions of all matter-bodies strictly follow ‘cause and effect’ relation. There are no actions at a distance through empty space.