By definition, an atom of an element is the smallest particle of the element that retains its chemical properties.
The answer is "an atom of carbon."
A group of 6 protons.
It could have 6 neutrons and 6 electrons, but it does not necessarily have to. It could have a different amount of neutrons and hence a different weight (an isotope), or a different number of electrons and be electrically charged (an ion). These are all still considered to be carbon atoms and chemically act as carbon.
The smallest particle of carbon dioxide that still has the properties of carbon dioxide is called a molecule. The molecule of carbon dioxide is composed of an atom of carbon that has double bonds to two oxygen atoms. The CO2 that we observe can be written as O=C=O to demonstrate the bonding.
An atom is the smallest particle of an element that still is considered that element.
Yes.
However the bulk properties of carbon do not begin to appear until you have many thousands of carbon atoms.
This material unit is called molecule.
Carbon Atom
Atom for A+
This is an atom of carbon.
Atom of carbon
A carbon atom.
This "particle" is the atom.
The smallest subdivision that retains all of the properties of a molecular compound is a molecule, and the smallest subdivision that retains all of the properties of a ionic compound is a formula unit.
An atom. Anything smaller is an atomic particle from which all elements are made.An atom is the smallest particle of an element that has properties of that element.An atom is the smallest unit of an element that retains the properties of that element.
A molecule is the smallest particle of a "compound" being that compounds are made up of more than one atom. The smallest particle of any "chemical element" that retains its properties would be the atom.
An Atom. An atom contains protons , neutrons and electrons. The number of protons in an atom gives it its characteristics. e.g. Hydrogen has ONE proton. Carbon has SIX protons. et seq/.
The smallest unit of Matter that retains the property of an element is the atom.
A molecule is the smallest particle of a compound that still retains its properties. An atom is the smallest particle of an element that still retains its properties.
it is the quarks
smallest particle of an element that retains the properties of that element.
The smallest particle of matter that retains the properties of the element of which it is a sample.
The smallest particle that retains the properties of an element is an atom. Quarks and leptons are just a family of elementary particles and do not carry any properties of the element.
The smallest particle of matter that retains the properties of the element of which it is a sample.
If it is an element, then the smallest particle that retains the characteristics of the element is an atom. If it is a diatomic element, then the smallest particle that retains the characteristics of the element is a molecule. If it is a molecular compound, then the smallest particle that retains the characteristics of the compound is a molecule. If it is an ionic compound, the smallest particle that retains characteristics of the compound is a formula unit.
The smallest subdivision that retains all of the properties of a molecular compound is a molecule, and the smallest subdivision that retains all of the properties of a ionic compound is a formula unit.
You mean the smallest particle of an element that still retains that element's properties. It is the atom. Even one atom of, say, carbon is still carbon. Cut it up any further and you no longer have carbon.
A molecule is the smallest part of a compound that still retains the properties of said compound. As the atom is the smallest particle of an element into which it can be divided and still retain all the properties of that element, the molecule is the atom's analog for a compound.
The atom. Anything smaller is an atomic particle from which all elements are made.
The atom. Anything smaller is an atomic particle from which all elements are made.