1: RbCl (Rubidium has 1+ charge, and Chlorine has 1-)
If the chlorine is in its normal state of diatomic molecules, there are 16.0 moles of chlorine atoms in 8.00 moles of chlorine. The number of atoms is then 16 times Avogadro's number = 9.64 X 1024, to the justified number of significant digits.
The number of chlorine atoms in 2,00 moles of CCl4 is 48,113.10e23.
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Two
Two - MgCl2
To convert chlorine atoms to moles of chlorine atoms, you need to know Avogadro's number, which is 6.022 x 10^23 atoms/mol. Divide the number of chlorine atoms by Avogadro's number to obtain the moles of chlorine atoms.
There are 5 chlorine atoms in PCl5.
If the chlorine is in its normal state of diatomic molecules, there are 16.0 moles of chlorine atoms in 8.00 moles of chlorine. The number of atoms is then 16 times Avogadro's number = 9.64 X 1024, to the justified number of significant digits.
The number of protons in the nucleus of each atom of chlorine.
The number of chlorine atoms in 2,00 moles of CCl4 is 48,113.10e23.
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Four chlorine atoms are needed to form a covalent compound with carbon by sharing electrons. Carbon can form four covalent bonds, so it can share one electron with each of the four chlorine atoms to achieve a stable octet electron configuration.
The two isotopes of chlorine are the same in that they have the same number of protons, which is the atomic number. The neutral atoms of each isotope also have the same number of electrons as protons. They differ in the number of neutrons.
There are 6.022 x 10^23 atoms of chlorine in 1.00 mol of chlorine gas, as Avogadro's number tells us that 1 mole of any substance contains that many atoms.
Two atoms of chlorine are needed, one to accept each of the barium electrons in an ionic compound, barium chloride (BaCl2).
The formula for the ionic compound formed between rubidium and sulfur is Rb2S. Rubidium is a group 1 element with a +1 charge, and sulfur is a group 16 element with a -2 charge. To balance the charges, two rubidium atoms are needed for every sulfur atom.
A chlorine atoms is always a molecule of chlorine, irrespective of the number of neutrons it may have.