Quantized charge means that the charge on an object exists in integer units of the charge of an electron, e.g. object charge = Ne, where N is an integer number..
When a quantity is "quantized," it means that the quantity exists in discrete indivisible units. For example, the magnitude of electric charge is quantized, and the quantum of electric charge is the charge of the electron e. There is no known free particle with a charge of 1/2 e or 9.1254e, only particles with charges of 1e, 2e, 5e, 99e, 423425e, etc.There are numerous other quantities that can be quantized including angular momentum, energy, and even electrical conductance.
It means the charge is an integer multiple of some basic charge. If the charge consists of a certain number electrons, you can have 1 electron, 2 electrons, 3 electrons, etc., but you can't have 1.5 electrons, or pi electrons.
In physics, when a quantity is "quantized," it means that it can be broken down into indivisible units.Imagine a tower built out of Legos. If you break down that tower, you will find it's made out of 2×4 blocks, which cannot be broken down any further. We say that the tower is quantized, and the quantum unit of the tower is a 2×4 block.Charge is quantized because all charges are made up of a "building block" of charge. The quantum unit of charge is 1.602 × 10^-19 Coulombs, or 1 e, the charge of an electron/proton.In nuclear physics, electrons and protons are made up of quarks which have charges of -1/3 e or +2/3 e, so they are truly (at this point), the quantum of charge.
Electrical charge is always quantized. In nature it is observed in units of + or - 1 esu (electrostatic unit), the charge of one proton or one electron. This is the smallest known stable charge. However, quarks, which make up protons have charges of + or - 1/3 or 2/3. So the smallest know quantum of charge is 1/3. But quarks are not stable individually; only when they are bound together in threes to form a proton.
Quantized charge means that the charge on an object exists in integer units of the charge of an electron, e.g. object charge = Ne, where N is an integer number..
Electrical charge is quantized. (negative in an electron, as an electron has exactly -1 fundamental unit of charge) The other two would be the energy levels in the atoms and the emitted energy.
When a quantity is "quantized," it means that the quantity exists in discrete indivisible units. For example, the magnitude of electric charge is quantized, and the quantum of electric charge is the charge of the electron e. There is no known free particle with a charge of 1/2 e or 9.1254e, only particles with charges of 1e, 2e, 5e, 99e, 423425e, etc.There are numerous other quantities that can be quantized including angular momentum, energy, and even electrical conductance.
Electric charge comes in multiples of an electron , 1.6E-19 Coulombs.
Volume and mass or physical qualities related to weight and size of the actual specimen. Density, hardness, and molecular weight are physical qualities that are quantized based on the material.
They have fixed energy values.
It means the charge is an integer multiple of some basic charge. If the charge consists of a certain number electrons, you can have 1 electron, 2 electrons, 3 electrons, etc., but you can't have 1.5 electrons, or pi electrons.
Millikan's oil-drop experiment demonstrated that charge is quantized, and that the quantum of charge ... the 'elementary' charge ... is 1.6 x 10-19 Coulomb.
In physics, when a quantity is "quantized," it means that it can be broken down into indivisible units.Imagine a tower built out of Legos. If you break down that tower, you will find it's made out of 2×4 blocks, which cannot be broken down any further. We say that the tower is quantized, and the quantum unit of the tower is a 2×4 block.Charge is quantized because all charges are made up of a "building block" of charge. The quantum unit of charge is 1.602 × 10^-19 Coulombs, or 1 e, the charge of an electron/proton.In nuclear physics, electrons and protons are made up of quarks which have charges of -1/3 e or +2/3 e, so they are truly (at this point), the quantum of charge.
Electrical charge is always quantized. In nature it is observed in units of + or - 1 esu (electrostatic unit), the charge of one proton or one electron. This is the smallest known stable charge. However, quarks, which make up protons have charges of + or - 1/3 or 2/3. So the smallest know quantum of charge is 1/3. But quarks are not stable individually; only when they are bound together in threes to form a proton.
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.