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All atoms of a single element have the same number of protons in their nuclei, which defines the element's atomic number. This characteristic gives each element its unique chemical properties. Additionally, while they may vary in the number of neutrons (resulting in different isotopes), the electron configuration, which determines how atoms interact with each other, is also consistent among atoms of the same element.
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What element were all atoms in the beginning?
All atoms in the beginning were hydrogen atoms.
What does Physics Chemistry the number of atoms of one isotope of an element divided by the total number of atoms in a mixture of the isotopes mean?
That ratio is known as the isotopic composition of the element. It tells you the proportion of the specific isotope compared to all isotopes of that element in the mixture. This ratio is important in various applications, such as radiometric dating and isotopic analysis in chemistry and physics.
What element do all four macromolecules have in common?
All four macromolecules (carbohydrates, lipids, proteins, nucleic acids) have carbon atoms as a common element. Carbon atoms are the backbone of organic molecules because of their ability to form versatile and stable bonds with a variety of other elements.
In any element all atoms are?
In any element, all atoms are identical in terms of their number of protons in the nucleus, which determines the element's identity. However, atoms of the same element can differ in the number of neutrons, resulting in isotopes.
What all atoms of a single element have in common?
The same number of protons (the atomic number),(the number of neutrons in the nucleus may differ from atom to atom ) The fact that atoms of an elemnt have the same number of protons means that in the neutral atom the number of electrons is the same - and therefore the chemistry is the same.
What do all atoms of any single element have in common?
All atoms of any single element have the same number of protons and electrons.
Do all atoms of a particular element have the same numbers of neutrons?
No, the isotopes of a single element differ in the no. of neutrons
What do element and mixture have in common?
The commonalities that elements, compounds, and mixtures all have in common is that they all contain atoms. Even though they all contain atoms, the number of atoms vary in each of them.
John Dalton concluded that all the atoms of a single what have the same mass?
He concluded that all atoms of an element have same mass and identical chemical and physical properties.
Do all the atoms of a particular elements have the same number of neutrons?
No, the isotopes of a single element differ in the no. of neutrons
What do an atom, ion, and isotope of an element have in common?
Atoms, ions, and isotopes of an element all have the same number of protons in their nucleus, which determines the element's identity.
John Dalton's atomic theory stated that atoms of the same?
According to John Dalton, all the atoms of a single element will have the same mass. This is the basis for the modern atomic theory.
Did John Dalton conclude all atoms of a single element have the same mass?
Not necessarily, because most elements have isotopes, which have slightly different weights. However, atoms of a particular element always have the same number of protons, equal to the atomic number of the element.
In any element all atoms are what?
All the atoms have the same number of protons (element type).
How many types of atoms can be found in a in a single element?
A pure element contains one sort of atoms, and all the elements have the same number of protons (which define the element). But the atoms can have different masses, so called "isotopes" (see link). Thus, chemically there is only one kind of atoms in a pure element, but there can be several physically different kinds of nuclei in a pure element.
The number of these must be the same for all atoms of an element?
The number of protons is identical in all atoms of an element.
What do an atom, ion, and isotope have in common?
Atoms, ions, and isotopes are all forms of the same element. They all have the same number of protons in their nucleus, which determines the element's identity.
