Five proton and electrons, 6 neutrons. This because this is the atomic number of boron, which states how many protons and electron in the element. For neutrons you must subtract the atomic number (5 in this case) from the rounded. average atomic mass.
N and As for two. They all have 5 valence electrons (as do Sb and Bi).
Bismuth has five valence electrons, hence, it can be represented as a combination of Bi and five dots. There's considerable variation in the arrangement of these dots in Lewis diagrams.
Bismuth has three 6p electrons.
Bi shows the element bismuth. Atomic number if Bi is 83.
5 valence electrons.
5 valence electrons.
Group 15 elements (N, P, As, Sb, Bi)
N and As for two. They all have 5 valence electrons (as do Sb and Bi).
Bismuth has five valence electrons, hence, it can be represented as a combination of Bi and five dots. There's considerable variation in the arrangement of these dots in Lewis diagrams.
Five proton and electrons, 6 neutrons. This because this is the atomic number of boron, which states how many protons and electron in the element. For neutrons you must subtract the atomic number (5 in this case) from the rounded. average atomic mass.
Bismuth has three 6p electrons.
Nitrogen (N), Phosphorous (P), Arsenic (As), Antimony (Sb) and Bismuth (Bi) all have a valence of 5, meaning they have 5 electrons in their outer shell. This means that they will readily accept three electrons, rather than lose five.
Bi shows the element bismuth. Atomic number if Bi is 83.
These would be p block elements in group 5 (XV)N, P, As, Sb, Bi
Bi is the symbol for the chemical element 'Bismuth'.
Bismuth, Bi, is an element