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Lewis bases are those which may donate a pair of electrons to an acid and may form a coordinate covalent bond,while reducing agents may donate electrons to any other specie specially metals and they may completely transfer the electrons.
The number of core electrons in chlorine is 10.
No, ligands are those which may donate pairs of electrons to a metal ion quaternary salts of nitrogen do not have free electrons pairs.
A voltage applied across two electrodes causes electrons to flow
This isotope may be phosphorus-34.
Chlorine has 17 electrons. 7 of its electrons are valence electrons.
Yes, you may receive up to $500 tax deduction if you donate your truck.
Lewis bases are those which may donate a pair of electrons to an acid and may form a coordinate covalent bond,while reducing agents may donate electrons to any other specie specially metals and they may completely transfer the electrons.
No. Sorry.
The number of core electrons in chlorine is 10.
No, ligands are those which may donate pairs of electrons to a metal ion quaternary salts of nitrogen do not have free electrons pairs.
Metallic chromium atoms tend to lose electrons in a chemical reaction. The chromium in a compound may either gain or lose, depending on the reaction.
If you mean how many electrons are required for an atom of chlorine to have no charge, the answer is 17 as chlorine has an atomic of 17 so therefore has 17 protons. These protons have a positive charge so it requires 17 negatively charged electrons in order to "balance" the atom.
A voltage applied across two electrodes causes electrons to flow
This isotope may be phosphorus-34.
metals lose electrons to form ions so as to obtain noble gas configuration. for e.g. sodium(Na) has 11 electrons i.e. 1 electron in its valent (last) shell, to attain noble gas configuration sodium loses 1 electron which may be gained by a non-metal to stabilize itself.
Each chlorine atom contains 17 electrons, which offset the electric charge of the 17 protons in the nucleus of each atom, as indicated by the fact that the atomic number of chlorine is 17. The number of neutrons per atom varies, however, depending on which isotope of chlorine is examined. There are two naturally occurring and radioactively stable isotopes of chlorine, with mass numbers of 35 and 37, and there are many other radioactive isotopes. The number of neutrons in an atom of a particular isotope may be found by subtracting 17, the atomic number of chlorine, from the mass number.