Cesium has 55 electrons in the neutral atom. It has only one outer s-block electron, however. It's outer-most orbital is the 6s1 orbital. If you are looking for the total number of electrons in all of cesium's s-block orbitals, the number is 10. The s-block orbital holds only 2 electrons, and the 1s, 2s, 3s, 4s, and 5s orbitals hold 1 + 2 + 2 + 2 + 2 electrons, or 9 electrons. Add the 1 electron in the 6s orbital and you'll get 10. A link can be found below.
Caesium has one s-block electron, as it is in group 1 of the Periodic Table and has an electron configuration of [Xe] 6s1.
Caesium has one electron in its outer shell, as it belongs to Group 1 of the periodic table which has one valence electron.
Caesium has a lower work function than lithium, meaning it requires less energy to release electrons. This makes it more efficient in producing a photoelectric effect. Additionally, caesium's longer wavelength of light sensitivity allows it to be better suited for certain applications compared to lithium.
1, as indicated by its placement in column 1 of a periodic table.
Yes, bromine and caesium can react to form caesium bromide. Caesium is a highly reactive metal that can readily form compounds with other elements, like bromine.
Californium has no odor.
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55
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Caesium is in the first raw. Atomic number of it is 55. So it has 55 protons.
Caesium has one electron in its outer shell, as it belongs to Group 1 of the periodic table which has one valence electron.
The element with 55 electrons is Caesium (Cs). Caesium is an Alkali Metal in Period 6 of the Periodic Table. It has the atomic number 55. It has 55 electrons in 6 shells with 1 electron in the outer shell.
caesium
it has free electrons
Caesium has six electron shells.
The element with atomic number 55 is Caesium. Caesium (Cs) is part of Group 1 - Alkali Metals, this means that it reacts vigourously in water. It has 55 electrons in 6 shells with 1 electron in the outer shell. Caesium is also spelt 'Cesium' by Americans, but the official IUPAC spellig is 'Caesium'.
Caesium has a lower work function than lithium, meaning it requires less energy to release electrons. This makes it more efficient in producing a photoelectric effect. Additionally, caesium's longer wavelength of light sensitivity allows it to be better suited for certain applications compared to lithium.
This element is caesium (Cs), with the atomic number 56.