Atomic number 14
it has 14 protons
it has 14 electrons, provided it is a silicon atom and not an ion with -4 charge
neutrons here are a variable. i dont know the percentages of each ion, but the Atomic Mass is 28.08, that rounds to 28, subtract 14 and silicon most commonly has 14 neutrons
See the Web Links for the stable isotopes of Si (subtract 14 from the number after "silicon" -- so for example silicon-30 has 16 neutrons).
A neutral Si atom has 14 electrons.
See the Related Questions to the left for how to determine the number of protons, neutrons and electrons in ANY atom!
Silicon's atomic number is 14.
Therefore it has 14 protons and 14 electrons.
The number of neutrons can vary by isotope.
Most silicon is silicon-28 with 14 neutrons.
There are stable isotopes with 15 or 16 neutrons.
The unstable (radioactive) isotope is silicon-32 with 18 neutrons (half-life 170 years).
Silicon has 14 protons and 14 electrons because it has the atomic number of 14.
The number of neutrons is less straightforward. Silicon (Si) has 24 known isotopes, with atomic mass numbers ranging from 22 (containing 8 neutrons) to 45 (containing 31 neutrons). However, by far the most common (92.23% of all Silicon) has an atomic mass of 28 (containing 14 neutrons). The next most common are 29 Si and 30 Si (containing 15 and 16 neutrons respectively). The other isotopes of Silicon are not stable and undergo radioactive decay.
Silicon has 14 protons and 14 electrons.
Si-28 isotope has 14 neutrons.
Silicon's atomic number is 14. Thus it has 14 protons and 14 electrons. 28Si is its most common isotope, and it has 28 - 14 = 14 neutrons.
protons-14
neutrons-14
14 each in Si-28 isotope
66
The silicon-29 isotope is used extensively in Nuclear Magnetic Resonance or NMR spectroscopy. It has 14 electrons, 14 protons and 15 neutrons.
Aluminum has 13 protons and 13 or 14 neutrons. Silicon has 14 protons, and 14 to 18 neutrons.
silicon silicon's atomic mass is 28.06 and it has 14 protons so it would have 14.06 neutrons on average
The atomic number of silicon is 14. This means that a silicon atom has 14 protons in its nucleus, and a neutral silicon atom has 14 electrons. The number of neutrons depends on the particular isotope.
A neutral atom of Silicon-27 contains 14 protons, just like any atom of Silicon (Si). Silicon has an atomic number of 14. The most abundant form of Si is Silicon-28, which has 14 neutrons. Silicon-27 has 13 neutrons.
Silicon 28 (28Si) has 14 protons, neutrons and electrons.
The silicon-29 isotope is used extensively in Nuclear Magnetic Resonance or NMR spectroscopy. It has 14 electrons, 14 protons and 15 neutrons.
Silicon has 14 protons and 14 electrons. The number of neutrons varies depending on the isotope of Silicon, but on average, Silicon has 14 neutrons.
All silicon atoms have 14 electrons and 14 protons. That is a rule that every silicon atom must follow. On the periodic table, the number next to the atom is the number of electrons/protons in an atom (silicon is the 14th element listed on the periodic table, hence the 14 electrons and 14 protons). The number "29" is the number of protons and neutrons together. This number can change with changing isotopes. So, if every silicon atom must have 14 protons, and 29 is the number of protons and neutrons together, so the number of neutrons must be 29 minus 14. Final: 14 protons 14 electrons 15 neutrons
Aluminum has 13 protons and 13 or 14 neutrons. Silicon has 14 protons, and 14 to 18 neutrons.
Boron is an atom or element, and it contains protons, electrons, and neutrons.
Neutrons - 118 Protons/electrons - 79
silicon-28 as 14 protons and 14 neutrons in the nucleus and 14 electrons revolving around the nucleus
silicon silicon's atomic mass is 28.06 and it has 14 protons so it would have 14.06 neutrons on average
Yes it does. All elements have electrons, protons, and neutrons.
Manganese has 25 protons, 25 electrons and 30 neutrons.
The atomic number of silicon is 14. This means that a silicon atom has 14 protons in its nucleus, and a neutral silicon atom has 14 electrons. The number of neutrons depends on the particular isotope.