There are two isotopes of boron: boron-10 and boron-11 Both have 5 protons and 5 electrons per atom
Boron-10 has 5 neutrons and boron-11 has 6 neutrons
Overall this gives an atomic weight of 10.8 gmol-1
2 protons 2 electrons 2 neutrons 2 protons 2 electrons 2 neutrons don't know
This is very simple, just look at the periodic table. Boron has the atomic number of 5, meaning that it has five protons and five electrons. As for the neutrons, most chemicals have isotopes, which means that one atom of an element may have a slightly lower or higher neutron count of an atom of the same element. In boron's case, it has two isotopes. Boron-10 would have 5 neutrons, and Boron-11 would have 6 neutrons, although boron-11 makes up somewhere in the range of 80% of known boron atoms.
In an atom of gold, there are 79 protons and 79 electrons. The number of neutrons for gold may vary by isotope.
In normal Helium(He) atom there are 2 electrons, 2protons and 2 neutrons.
protons, neutrons and electrons are the main subatomic particles of the atom. There are the same number of protons as electrons, which is equal to the atomic number. The number of neutrons may vary according to the isotope of the element.
According to Wikipedia neutral nitrogen has 7 protons, 7 neutrons, and 7 electrons. Nitrogen ions may have more or less electrons and other nitrogen isotopes may have more or fewer neutorns.
Kinda. There may or may not be smaller things inside the neutrons, protons and electrons, but yes protons neutrons and electrons are the only subatomics that have been proven to exist. There are also the Strong Nuclear Force (which keeps protons from pushing each other away) and the Weak Nuclear Force which has something to do with quarks and W and Z bosons (which are inside protons neutrons and electrons). However these are forces and not particles.
No. Sorry.
Protons/Electrons: 85 Number of Neutrons: 125
All beryllium atoms have 4 protons and 4 electrons. The number of neutrons is characteristic of a particular isotope, not of beryllium as a whole, and may be determined by subtracting 4, the number of protons, from the mass number of the isotope.
Using the periodic table you are able to determine the number of protons, electrons, and neutrons for any of the elements identified to this date. Knowing an element's name or symbol, look up the element in the table. For example lets look up Boron! Boron's chemical symbol is B, and from the periodic table its atomic number is 5. The atomic number of an element reveals the number of protons and also the number of electrons the element has as a single isolated atom. Although, the element may not exist freely as an isolated single atom in nature. So, Boron has 5 protons and 5 electrons. The number of neutrons an element may have can vary, and this is what differentiates stable and unstable isotopes of many elements. Boron has a molar mass of 10.811, and is listed with two stable isotopes: 10B and 11B. Subtracting the atomic number from the isotope number gives the number of neutrons boron is found with. The 10B isotope has 5 neutrons, and the 11B isotope has 6 neutrons. Since the molar mass is 10.811, we can tell that the 11B isotope is more abundant than the 10B isotope. If the distribution was equal then the molar mass would be 10.5.
12 electrons. Remember, electrons and protons must be balanced in charge; neutron number may vary.