Different isotopes of an atom retain the properties of the atom?
Yes, different isotopes of an atom retain the properties of the atom.
Isotopes of an atom does retain the properties of the atom. This is discrete in units of matter.
Because the number of protons and electrons remain unchanged.
Different isotopes retain almost but not quite all of the chemical properties of the atom. They have different physical properties --obviously atomic mass--but most physical properties differ only slightly if at all. (That is why it took a massive effort during World War II to enrich uranium in its U-235 isotope enough to make an atomic bomb. The method that finally proved most efficient was gaseous diffusion, using a gaseous halide of uranium; the diffusion… Read More
Not atom, but element. Isotopes have the same number of protons and electrons (for a neutral atom) and a different number of neutrons. The chemical properties of isotopes are generally similar, excepting the isotopes with a low atomic mass, as hydrogen. Some physical properties of the isotopes are very different: atomic mass, radio-activity, possible nuclear reactions, cross section area, etc.
Neutrons. Neutrons, when added or taken away, will change the AMU of atom making it have different properties.
Chemical properties are determined by the electron configuration of an atom, not by its mass. These do not differ in all isotopes of one element, because isotopes have the same number of PROTONS thus the same electron configuration. Only the mass of different isotopes of one element is different by the different number of NEUTRONS.
Yes, it is true for all chemical elements. But attention: isotopes of an element have different nuclear properties.
Different isotopes of an atom are determined by the number of neutrons it contains.
Carbon Atom Atom for A+
Different isotopes have different numbers of neutrons so their mass numbers are different.
They all have the same number of neutrons. All atoms of a given element have a specific number of protons. That is what gives an element its elemental identity. But we know that different atoms of a given element can have different numbers of neutrons. These different atoms of the same element are the isotopes of that element. All the atoms of a given isotope of a given element will have the same number of… Read More
Why can an atom of plutonium be divided into smaller particles that retain all the properties of plutonium?
It is not correct: if an atom is divided it is not the original atom.
a chicken grows
What is the smallest unit of a pure substance that can exist and retain its physical and chemical properties called?
A molecule is the smallest unit of a pure substance that can exist and still retain its chemical properties. An atom is the smallest unit of an element that can exist and still retain its chemical properties.
All the isotopes of an atom have the same number of protons but different number of neutrons.
This is an atom of carbon.
Atom of carbon
Isotopes of an element will have a differnet number of neutrons.
Isotopes have a different number of neutrons.
Isotopes are a type of atom that share the same number of protons as the neutral atom, but have a different number of neutrons. This is different from an ion, which has a different number of electrons.
Air is composed of many different gases that are not chemically combined and retain their individual properties. Water is a compound because it is composed of two hydrogen atoms chemically bonded to an oxygen atom, and the properties of water are different from the properties of the elements hydrogen and oxygen.
Can an atom of plutonium divide in to smaller particles that retain all the properties of plutonium?
No, it is not possible - the atom is specific for a chemical element.
This may be a matter of how the word atom is defined. Most elements have isotopes which have different numbers of neutrons in an otherwise identical atom. So, if isotopes are different types of atoms then elements can have more than one type of atom. If isotopes are not different types of atoms then elements can only have one type of atom.
An atom or element that have different masses are known as isotopes.
There is no such thing. There are carbon atoms of varying properties, and isotopes. There is no such thing as an "human carbon atom."
ALLOTROPES : We know that an element consists of same type of atoms. However, there are certain types of elements like carbon, sulfur and phosphorus in which different arrangement of atoms give them different physical forms. These different arrangement of atoms impart different physical properties to the element. However, chemical properties remain the same. These different physical forms of the same element having different physical properties but same chemical properties are called Allotropes and this… Read More
all the isotopes of a given atom have the answer is : c different mass numbers but same atomic number.
Only of isotopes. Calcium is an element. No mixture of chemicals can ever be a single element. The atoms of any element, such as calcium, always have the same number of protons and the same number of electrons. The number of electrons in an atom is the same as the number of protons in that atom. Different Isotopes of an element have different numbers of neutrons in the nucleus, but this doesn't change any of… Read More
Isotopes of the same chemical element have a different number of neutrons.
Isotopes: atoms with the same atomic number (also identical number of protons and electrons) but with a different number of neutrons and consequently with a different atomic mass. An isotope is an atom; the atom has not isotopes but an element has isotopes (natural or artificial).
Different isotopes of the same element are usually considered not to be chemically different. The atoms of different isotopes of the same element differ only in mass, not in their electronic structure, and it's the electronic structure of an atom that determines its chemical properties. A partial exception: hydrogen and its isotopes deuterium and tritium. Because the isotopes of hydrogen weigh twice and three times as much respectively, but have the same electronic structure, while… Read More
Because they have different numbers of neutrons
An atom is the smallest particle of an element that has the properties of that element. Any smaller such as a proton, neutron and electron act as seperate entities when split from the atom and don't retain any properties of the element.
The number of neutrons.
Atoms with the same number of protons but different numbers of neutrons are said to be isotopes of the original atom.
No. If they had different atomic numbers, they would not be the same atom and would be different elements. Different isotopes have different mass numbers.
Both of these isotopes have 17 protons in the nucleus of each atom, and their chemical properties are qualitatively identical, with slight quantitative differences due to their different masses.
Different isotopes of the same element have the same number of protons in each atom, but a different number of neutrons.
How do isotopes of a single element differ from each other how do their chemical properties compare?
an isotope is a different form of that element. They just have different mass numbers/ atomic mass. Therefore having the same characteristics of the atom except for an increased/decreased number of neutrons. Isotopes have the same atomic number as each other.
No. All Uranium isotopes are called Uranium because they have 92 protons. The different isotopes (233, 235, 238, etc) all have 92 protons but have different numbers of neutrons in the nucleus. The chemical characteristics of an atom are determined by the number of protons in the nucleus which controls the number of electrons it takes to balance the atom and thus the chemical valence of the atom. When you get down to it, that… Read More
Different number of neutrons in each atom.
Almost all the chemical properties of an atom are determined by the valence shell electrons or in general, by the no of electrons present in the atom. Since in an isotope and a general atom, no. of electrons is same, therefore they have similar chemical properties. Isotopes differ in atomic mass only and that is due to extra neutrons.
If this atom is part of a compound, the properties change. I Mean, the properties of Oxygen in the molecule O2 is Different from that in compound CO2 Conc. Atoms lose their properties if they form a compound with different atoms There are three stable Isotopes of Oxygen: 16O, 17O, and 18O. Their half lives vary and so do their relative atomic masses. As a result they have slight differences in their physical properties.
The chemical properties of a given atom depend on the electron configuration. Isotopes vary only in the number of neutrons in the nucleus, and the number of neutrons has no effect on the electron configuration. Electrons are only affected by electrically charged particles such as protons, they are not affected by electrically neutral particles such as neutrons.
isotopes are just the same oxygen atom with a different number of protons
Isotopes have the same number of protons but different number of neutrons. Carbon has several isotopes: carbon-12, carbon-13, carbon-14, etc. They all have 6 protons but their mass and physical properties change due to the number of neutron.
The isotopes of the same atom would have differing numbers of neutrons.
the different properties are protons, electrons and neutrons here is a picture
Well, isotopes are "normal atoms". The difference between different isotopes is different numbers of neutrons in their nucleus. This causes different isotopes to have different atomic mass numbers and atomic masses. Some isotopes (but not all) are radioactive, because the ratios of neutrons to protons in their nuclei results in instabilities.
19 ------------------------------------------- Actually all elements have isotopes. Isotopes are atoms that have different amount of neutrons. If you ever notice the atomic mass of an atom, it is the average atomic mass of all isotopes. If an atom had no isotope then that number would be an integer.