The neutral atom of molybdenum has 42 electrons.
Molybdenum-96 (not Mo-96) or Mo 96 42 has 42 protons and 54 neutrons. The atomic number is number of protons The mass number minus the atomic number is number of neutrons
Molybdenum 98, a stable isotope, has 56 neutrons.
All elements have neutrons and protons within the nucleus.
54 A+
Mo (Molybdenum) Atomic number: 42; Atomic Mass: 91
molybdenum has 13 protons and 13 electrons
Molybdenum-96 (not Mo-96) or Mo 96 42 has 42 protons and 54 neutrons. The atomic number is number of protons The mass number minus the atomic number is number of neutrons
Molybdenum 98, a stable isotope, has 56 neutrons.
All elements have neutrons and protons within the nucleus.
42 electrons implies atomic number of 42, which implies that it's molybdenum. With 42 electrons implies 42 protons implies an atomic mass of 42+53=95 which is 95Mo, one of the stable isotopes of this element. Please see the link.
54 A+
54 A+
Mo (Molybdenum) Atomic number: 42; Atomic Mass: 91
The count of quarks in an atom of molybdenum would depend on the nuclide's mass number (A), or in other words, on which isotope. 3 * A = (quark count) since both neutrons and protons have 3 quarks each. The lowest we know about (Mo-83) would have 249 quarks, the highest (Mo-115) would have 345. Molybdenum-98 is the commonest isotope with (3 * 98) quarks.
Molybdenum (Mo) has a configuration of [Kr] 5s^1 4d^5. Therefore, it has 5 4d electrons.
Manganese is an element on the periodic table with the symbol "Mn" and atomic number 25. It is a silvery-gray metal that is found in various minerals and ores. Manganese is typically extracted from its ores through a process called electrolysis.
Electrons in a bonding molecular orbital spend most of their time in the region between the two nuclei, helping to bond the atoms together. Electrons in an antibonding molecular orbital cannot occupy the central region between the nuclei and cannot contribute to bonding.