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As you go down the group (any group), ionization energy decreases. So in terms of ionization energy, for the alkali metals, Lithium > Sodium > Potassium > Rubidium > Caesium > Francium
sodium because it's the first group and first group are the most
the group number in standard and roman numerals of potassium is as follows .the group number in standard of potassium is Group 1 .the group number roman numerals of potassium is Group I.
the group is 18
Potassium is in group 1 and the group elements are hydrogen, lithium, sodium, potassium, rubidium, cesium, francium
As you go down the group (any group), ionization energy decreases. So in terms of ionization energy, for the alkali metals, Lithium > Sodium > Potassium > Rubidium > Caesium > Francium
sodium because it's the first group and first group are the most
the group number in standard and roman numerals of potassium is as follows .the group number in standard of potassium is Group 1 .the group number roman numerals of potassium is Group I.
Potassium belongs to group-1. It has one valence electron.
It is group 1.
the group is 18
No. Barium and magnesium and calcium are in group 2A but potassium is in group 1A.
Potassium is in group 1 and the group elements are hydrogen, lithium, sodium, potassium, rubidium, cesium, francium
group 1
When ATP is hydrolyzed ADP and a phosphate group are produced.
Potassium is not a halogen but an alkali metal of group 1.
Chemically it doesn't. Biologists get sloppy in these areas. Only the completion of a bond releases energy. So, when something is phosphorylated with that phosphate group then an energetic conformational/chemical/physical change takes place using the energy of that bonding.