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É ponto pacífico e plenamente sabido que os prótons bem como os elétrons tem cores iridescentes no ponto intermediário entre a bissetriz e o raio que o parta. Pontos amarelados tem sido testemunhados por cegos também. De vez em quando surgem colorações esverdeadas nos pontos contíguos entre o raio mestre e a tangência bilateral. Salvador Dali já tentou, sem sucesso, catalogar as diferentes cores apresentadas pelos protons, mas não obteve sucesso, devido a que essas cores apresentam uma freqüencia de onda desconhecida, indo além do limite perceptivel pelos aparelhos mais sensíveis em voga atualmente. Mas eu sei qual é a cor dos prótons. É sem dúvida nenhuma, cor de burro quando foge. Na hipótese, (muito remota) de eu ter cometido um engano, então a cor dos prótons só poderá ser cor de buraco de cerca.
There is no reference about the proton's color anywhere.
Protons do not have a color as they are subatomic particles found in the nucleus of atoms. They are made up of quarks, which are fundamental particles that do not have a color in the traditional sense.
In Physics the term color may indicates two things, first the common understanding of colors, second, especially when speaking about particle physics, color may refer to a property of the Quarks.
in the first case, Protons, Neutrons and Electrons doesn't have a color. Since color is waves with a wavelength in the visible range, and the wavelength of electrons is extremely small (far smaller than visible waves) same issue applies to neutrons and protons.
in the second case, which is excluded from this question since color is only a property for quarks. While Quarks have color, the particles they make up are colorless.
there's two types of hadrons which are baryons and mesons. Every baryon is made up of three quarks and every meson is made of a quark and an anti-quark, all quarks have the same quantum numbers for such properties as spin, size,... and according to the Pauli Exclusion Principle which states that no two identical objects can occupy the same place, it is impossible for one particle to contain two of the same kind of quark. But the proton contains two up quarks and one down quark. Because of this contradiction, it was assumed that quarks must have another property with six manifestations. This new property was the "color".
The six manifestations are :
red, blue, green, anti-red, anti-blue, and anti-green.
The anti-colors belong to the anti-quarks. To obey the Exclusion Principle, all three quarks in a baryon are of different colors and a meson must contain a colored quark and a quark of the corresponding anti-color. The red, blue, and green quarks present in every particle come together to make a colorless particle. A meson, on the other hand is composed of a red quark and an anti-red anti-quark, who's colors cancel each other out.
- the three subatomic particles are protons, neutrons and electrons.
- electrons do not have colour. the colour seen is:
- when energy is supplied to an atom, the electrons are in an excited state. since it is more convenient for the electrons to remain in the ground state, they fall back to the energy levels of the ground state. the energy absorbed is now emitted in the form of light energy, with the difference in colour being the different energy levels at which light is given out.
- protons should have colour. this is because protons, even though they are subatomic particles, are further constituted of quarks, which are differentiated on the basis of colour. therefore, protons have colour.
- neutrons are also made up of quarks, hence the same reason is applied here.
- nucleons are made up of coloured particles and therefore have colour.
Original Answer: the concept of color has no relevance to subatomic particles
Color IS a property that quarks (a type of subatomic particle) do have (along with anti color) and a Google search of color charge will link you to a wikipedia page all about this.
By the laws of colour conservation, neutrons and protons are colorless overall, but contain 3 quarks and between the quarks there is a red and anti red charge, a blue / anti blue and a green / anti green charge so that overall the proton / neutron is colorless.
Electrons, which are fundamental and thus not composed of quarks have no color by definition.
same as any other = none, because too small for absorbing lightwaves
A proton has no color. The concept of color has no meaning at the subatomic level.
Subatomic particles do not have color. They are too small to interact with light waves. Protons can be detected, but not "seen."
Protons do not possess a color.
Only quarks do, and even that word is an amusing use of the word.
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What are protons and how do they affect color?
Protons are positively charged subatomic particles found in the nucleus of an atom. They do not directly affect the color of an object. Instead, the color of an object is determined by the way it interacts with light, which is influenced by its atomic structure and the arrangement of electrons in its atoms.
What types of forces attract protons to each other in an atom?
The main forces that attract protons to each other in an atom are the electromagnetic force and the strong nuclear force. The electromagnetic force, which includes both attraction and repulsion between charged particles, plays a role in keeping protons together in the nucleus. The strong nuclear force is responsible for holding protons and neutrons together in the nucleus despite their electromagnetic repulsion.
Which are protons the red ones or the blue ones?
Protons are positively charged particles found in the nucleus of an atom. They are not specifically red or blue in color as they are subatomic particles and cannot be seen with the naked eye. The color red or blue is typically used to represent positive or negative charges in diagrams and illustrations to differentiate between protons and electrons.
Do acids turn indicator pink?
No, acids turn indicators red. Acids donate protons in solution, resulting in a color change in indicators from their normal color to red.
Do protons and neutrons attract each other or repel each other?
Protons and neutrons attract each other through the strong nuclear force, which is mediated by particles called mesons. This force overcomes the electromagnetic repulsion between the positively charged protons.
What color are the neons protons and nuetrons?
They are colourless
What color are protons and neutrons in beryllium?
protons: blue neutrons: indigo or light purple electrons: red
What is the number of protons in Fe 3?
This ion is yellowish brown color in water. Ion contains 26 protons.
What distinguihses one element from another?
The color of the protons, The number of neutrons in the nucleus
What are protons and how do they affect color?
Protons are positively charged subatomic particles found in the nucleus of an atom. They do not directly affect the color of an object. Instead, the color of an object is determined by the way it interacts with light, which is influenced by its atomic structure and the arrangement of electrons in its atoms.
What color would you use for fluorine atom model for the neutrons and protons?
The color typically used for neutrons in a fluorine atom model is gray, and the color used for protons is white. This color scheme helps to differentiate between the two subatomic particles and create a clear visual representation of the atom.
Change color as they donate and accept protons?
When the number of protons changes, the elements changes. This could result in change in colour as a different mouth is formed.
What contains the protons and neutrons?
In an atom the protons and neutrons are contained within the nucleus by the residual strong ("color") force. the 'color' force is only applicable for fundamental particles Quarks . the proton and neutron have a force similar to the gravitational force.....
Why do protons and neutrons stay together in the nucleus of an atom?
Protons and neutrons are not elementary particles. They're made of particles called quarks (which we're reasonably sure areelementary particles). These quarks are held together in hadrons such as protons and neutrons by something called the color force, also known as the strong nuclear force.The residual color force, which you can sort of think of as "left over" from holding the individual protons and neutrons together, holds the collection of protons and neutrons together in the nucleus.
What types of forces attract protons to each other in an atom?
The main forces that attract protons to each other in an atom are the electromagnetic force and the strong nuclear force. The electromagnetic force, which includes both attraction and repulsion between charged particles, plays a role in keeping protons together in the nucleus. The strong nuclear force is responsible for holding protons and neutrons together in the nucleus despite their electromagnetic repulsion.
What colors are electrons protons and neutrons in a carbon atom?
They are the subatomic particles from which the carbon atom (an all other atoms) is made they have no color. The color of a substance is an emergent phenomenon and not dependent on the properties of its subatomic constituents.
What is a unique identifier of a chemical element determined by how many protons are found in the nucleus of an atom?
color energy
