An element.
An atom.
Usually no. Most institutions charge (and pay) compound interest, NOT simple interest.Usually no. Most institutions charge (and pay) compound interest, NOT simple interest.Usually no. Most institutions charge (and pay) compound interest, NOT simple interest.Usually no. Most institutions charge (and pay) compound interest, NOT simple interest.
The smallest particle of a covalent compound that shows the properties of that compound is a molecule.
It is lower because compound machines have more moving parts that a simple machine does.
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 first and the most common one is a simple radio
Molecule is the smallest particle that still holds the same compound.
Simple leaf
Molecule is the smallest particle that still holds the same compound.
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.
The most simple method is sieving.
The smallest particle of a covalent compound that shows the properties of that compound is a molecule. In a covalent compound, atoms share electrons to form stable bonds, and the smallest unit that retains the chemical properties of the compound is the molecule, which consists of at least two atoms bonded together.