Yes, matter exists in discrete amounts that equal some whole number of atoms.
Charge is quantized because it is always found in discrete amounts, typically in units of the elementary charge, e. This quantization of charge is a fundamental property of matter observed in experiments and explained through theories like quantum mechanics. The existence of quantized charge leads to fundamental physical phenomena, such as the Coulomb force between charged particles.
From wiki: Quanta is the minimum amount of any physical entity involved in an interaction. Behind this, one finds the fundamental notion that a physical property may be "quantized," referred to as "the hypothesis of quantization. This means that the magnitude can take on only certain discrete values. There is a related term of quantum number. An example of an entity that is quantized is the energy transfer of elementary particles of matter (called fermions) and of photons and other bosons.
A quantized condition refers to a specific state or value that is constrained to discrete or distinct levels, such as multiples of a minimum unit (quantum). In physics, quantized conditions often arise in systems that exhibit quantization of energy levels or other properties according to fundamental principles like quantum mechanics.
Something that is quantized means that it can only exist in discrete, specific amounts or values, rather than being continuous. This concept is often seen in physics, where certain properties like energy, charge, or angular momentum are restricted to particular quantized levels.
Quantized energy states refer to specific discrete levels of energy that an atom, molecule, or other system can have. These levels are separated by specific energy gaps, and only certain values of energy are allowed within these quantized levels. This concept is a key aspect of quantum mechanics and explains phenomena like atomic spectra and electron energy levels.
Charge is quantized because it is always found in discrete amounts, typically in units of the elementary charge, e. This quantization of charge is a fundamental property of matter observed in experiments and explained through theories like quantum mechanics. The existence of quantized charge leads to fundamental physical phenomena, such as the Coulomb force between charged particles.
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They have fixed energy values.
Quantized. (Number 4 if you are using what I think you are using.)
Digital quantized information and analog is just information. Like the letter "i" on your screen is digital and made up of a few pixels= quantized. The letter "i" drawn on a piece of paper is not quantized = analog.
No. But it is quantized. That means that there issuch a thing as the smallestpossible interval of time, which can't be broken up into any smaller pieces.
From wiki: Quanta is the minimum amount of any physical entity involved in an interaction. Behind this, one finds the fundamental notion that a physical property may be "quantized," referred to as "the hypothesis of quantization. This means that the magnitude can take on only certain discrete values. There is a related term of quantum number. An example of an entity that is quantized is the energy transfer of elementary particles of matter (called fermions) and of photons and other bosons.
It is quantised.
Leopold Halpern has written: 'Some aspects of the interaction of a classical gravitational field with a quantized matter field' -- subject(s): Gravitation, Perturbation (Quantum dynamics)
Food on shelves in a refrigerator
No. A quantized orbit means the energy is locked in as a constant. It would have to switch to a different orbit to emit energy.
The term "quantized" means, is divided into discreet sections which are indivisible; or in other words, it is made of small sections that cannot be made into even smaller sections. In the science of quantum mechanics, it turns out that matter, energy, space and time are all quantized. There is a smallest quantity of each of these which cannot be subdivided into an even smaller quantity. One of these tiny, indivisible pieces would be called a quantum.