nitrogen- .70 angstroms (oxygen- .66 angstroms)
Many elements have a larger atomic radius than sulfur (100 pm): selenium, tellurium, uranium.
There are several elements that have a larger atomic radius than boron. One such element would be beryllium. Another would be lithium. And finally, another would be gallium.
Lithium and beryllium have larger atomic radii than boron. Atomic radius decreases from left to right across a period.
anything in periods below it to start
Rubidium.
Caesium atom has a larger atomic radius.
Rubidium; the next higher atomic numbered element in the same column of the periodic table always has a higher atomic radius, with some exceptions among transition elements due to the "lanthanide contraction". However, potassium and rubidium are not transition elements.
geranium
Rubidium has an atomic radius of 248 picometers.
Rubidium
Rubidium.
Caesium atom has a larger atomic radius.
The atomic radius decreases across a period from left to right and increases down in a given group. That means that since the lower the element is in a group, the larger the atomic radius will be. The atoms with the largest atomic radii are located in Group I and are at the bottom of groups.
Atomic radius of Si is 111pm.Atomic radius of Pb is 175pm.Therefore lead has a larger atomic radius than silicon.
Rubidium Rubidium has atomic mass 85.5.
Rubidium; the next higher atomic numbered element in the same column of the periodic table always has a higher atomic radius, with some exceptions among transition elements due to the "lanthanide contraction". However, potassium and rubidium are not transition elements.
The empirical atomic radius of rubidium is 235 pm.The empirical atomic radius of caesium is 260 pm.The empirical atomic radius of francium is supposed to be approx. 260 pm.
geranium
Bromide.
In rubidium, having a larger atomic radius, the attraction force between the atomic nucleus and and the electron from outermost shell is lower.
Rubidium has an atomic radius of 248 picometers.