It is the principle of conservation of energy.
The Law of Conservation of Mass (aka The Law of Conservation of Matter)
law of conversation of matter.
them mass number of an element is the total amount of nuetrons and protons in the element , and the atomic number is the amount of protons ( and electrons) in the element simply subtract the atomic number from the mass number and you'll have the number of neutrons in the element hope this helped x
Because an atom of element has the same number of electrons as of protons and the number of protons in an atom is the same as the atomic number of the atom, the answer to this is whichever element has the highest atomic number yet synthesized.
Element #105 is an artificial element, and it is called Dubnium.
One element differs from another element by the number of protons in their atoms. The number of protons in the atom is known as the atomic number. Also one isotope of an element differs from another isotope of the same element by the number of neutrons in their atoms.
To a certain extent yes. In a balanced element the number of electrons match the number of protons in the core of the element. If electrons have been added or removed (as in an ion) then you would need to know the exact number added/removed, or rebalance the element, in order to determine the specific element.
It is equation
In this case, the equation is balanced.
In this case, the equation is balanced.
Ytterbium is an element (atomic number 70), not an equation.
A "balanced" equation.
Number of neutrons = mass number - number of protons
This is the number of atoms of a given element.
balanced equation
Avogadro's number is not limited to any specific element, it is a constant that applies to any equation. Avogadro's number = 6.02214*1023
If the number of atoms of each element is the same on both sides of the equation, then it is balanced.
Number of neutrons = Atomic mass - Atomic number
The coefficient times the subscripts in a chemical formula show you the number of atoms of each element for each substance in the equation.