Cesium, being in group I forms the Cs^1+ ion.
Strontium (Sr) Sr2+ ion and krypton have he same electronic configuration
No, I would not.
Cesium loses just one electron to form Cs+
a general answer is that if it is a cation the ion is smaller than the atom due to loosing one or more electrons which would decrease the size of the radius anions are larger because they are gaining more electrons and electron electron repulsion is greater which spreads the anion apart
A monovalent ion is a cation that only has one valence electron to form an ionic bond with something else. Typically they are the alkali metals--Lithium, Sodium, Potassium, Rubidium, Caesium and Francium. Some transition metals can be found to be monovalent ions.
Cs1+
Cs+1
Strontium (Sr) Sr2+ ion and krypton have he same electronic configuration
Caesium recats with water to form caesium hydroxide , a base. the universal indicator woulg change color to be brown/purple depending on the concentration i.e pH. see link
No, I would not.
Elements in group one of the periodic table; Lithium, Sodium, potassium, rubidium, caesium and rubidium, will form ions with a positive charge of one.
Cesium loses just one electron to form Cs+
It would form the negatively charged phosphide ion with a charge of 3-, and the symbol P3- .
Chlorine would form a negative ion and the other three positive ions.
The valency of Caesium (Cs) is '1' . It is a Group 'I' metal, therefore it is able to ionise(lose) one electrons. Consequently it is only able to form oner bond.
a general answer is that if it is a cation the ion is smaller than the atom due to loosing one or more electrons which would decrease the size of the radius anions are larger because they are gaining more electrons and electron electron repulsion is greater which spreads the anion apart
A monovalent ion is a cation that only has one valence electron to form an ionic bond with something else. Typically they are the alkali metals--Lithium, Sodium, Potassium, Rubidium, Caesium and Francium. Some transition metals can be found to be monovalent ions.