The isotope that has 13 protons and 14 neutrons is aluminum.
Aluminum has 13 electrons/protons and 14 neutrons.
13 protons and 14 neutrons. The fact that its an ion doesn't change that ... only the number of electrons.
There are 14 protons and 16 neutrons in 30Si and the atom is a stable isotope of silicon.
The mass number of an atom is the sum of its protons and neutrons. Silicon has 14 protons making its atomic number 14. With 14 neutrons added to 14 protons, the mass number of silicon with 14 neutrons would be 28.
Aluminium with atomic number 13 ie 13 protons has 14 neutrons within the nucleus. So its mass number is 27. Silicon too with atomic number 14 has 14 neutrons within. Why not? Even phosphorous with atomic number 15 has 14 neutrons. So it is an isotope that too radio active isotope. So it is very important to know about the number of protons to identify the element. But number of neutrons do differ leading to the formation of isotopes.
The natural stable isotope of silicon, 30Si, has 14 protons and 16 neutrons.
13 protons and 13 electrons as its atomic number is 13. Al-27 isotope has 14 neutrons.
Aluminium has 13 electrons and protons; the isotope 27Al has 14 neutrons.
Mass number = proton number + neutron number SO, Mass number(Aluminium) = 13+ 14 =27
The aluminum atom has 13 electrons and protons and also 14 neutrons.
13 protons and 13 electrons as its atomic number is 13. Al-27 isotope has 14 neutrons.
This isotope is aluminium-27.
Magnesium has 12 protons and electrons and 12, 13 or 14 neutrons, depending on the isotope.
Aluminum has 13 electrons/protons and 14 neutrons.
Zero. It does, however, have 13 protons, and anywhere from 8 to 29 neutrons, depending on the isotope. The common, stable isotope has 14 neutrons.
The mass number of an isotope is the sum of its protons and neutrons. Since silicon has 14 protons, the isotope with 15 neutrons would have a mass number of 14 (protons) + 15 (neutrons) = 29.
13 protons and 14 neutrons. The fact that its an ion doesn't change that ... only the number of electrons.