Yes, becasue there is nothing that makes them. That is as small as it gets!
Although never experimental observed, quarks are the building blocks within hadrons such as protons and neutrons. Their size is speculative, but they are clearly smaller than a hadron.
Neutrinos have far less mass than even electrons, and thus could be considered "smaller."
No. So far it looks like there is nothing smaller inside an atom than quarks.
Electrons are smaller than a neutron, but the smallest particle in the atomic structure is the quark. These subatomic particles are what make up the protons and neutrons of an atom.
Electrons, protons and neutrons are not the smallest particles. The smallest particles that we know of, as of today, are called quarks.
Yes they are the subatomic particles. These are smallest particles known.
yes
ground state
An iron atom is a different element than a sodium atom because it has a different ground state electron configuration. In fact, any atom that differs from any other atom in ground state electron configuration is a different element.
The symbol for sulfur is S. Its electron configuration is 1s22s22p63s23p4
The electronic configuration for Cl atom is 1s2 2s2 2p6 3s2 3p5. It has one unpaired electron in the 3p shell, thus it is a free radical and very reactive. Hence chlorine does not exist in its atomic state as a Cl atom as it is too unstable.
ground state
it the smallest element with one valence electron and will bond to just about anything, theres no scenario in nature where hydrogen would not have another element around to bond to
The element with that electron configuration is Iron.
ground state
The oxidation state of an element is determined by the number of electrons the element needs to lose or gain to have a full valence electron shell.
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Atom is a smallest particle of an element that cannot exist in free state is called atom.A species having positive and negative charge is called ions.
The element is Yttrium, with the symbol Y
The electron configuration of 1s22s22p3s1 is not the ground state electron configuration of any element. This configuration contains 8 electrons, which in the ground state would be oxygen. The ground state configuration of oxygen is 1s22s22p4.
Chlorine does not exist as seperate atoms as it often tends be stable by obtaining an electron from another atom. However, the element chlorine exists in free state as gaseous chlorine molecules.
Will an electron excite if it is given energy that will allow it to exist in between two energy levels? No An electron can only exist in specific energy levels. Giving an electron more energy can make it escape from the attraction of the protons completely and the atom now has 1 less electron and is a +1 ion. Have you seen an electron discharge tube? If I turn up the power, the tube will become brighter, but the color will not change. The color of light is the product of the electron returning from the excited state to its ground state. Will an electron excite if it is given energy that will allow it to exist in between two energy levels? No An electron can only exist in specific energy levels. Giving an electron more energy can make it escape from the attraction of the protons completely and the atom now has 1 less electron and is a +1 ion. Have you seen an electron discharge tube? If I turn up the power, the tube will become brighter, but the color will not change. The color of light is the product of the electron returning from the excited state to its ground state.
An iron atom is a different element than a sodium atom because it has a different ground state electron configuration. In fact, any atom that differs from any other atom in ground state electron configuration is a different element.
The symbol for sulfur is S. Its electron configuration is 1s22s22p63s23p4