Atomic radius in group 4:
- titanium=140 pm
- zirconium=155 pm
- hafnium=155 pm
Atomic radius increases down the group. So indium will have the largest atomic radius among the options given.
As you look down a group you notice that the atomic radius increases or becomes larger.
Yes. The atomic radius increases down the group. This is because number of shells increases down the group.
It tends to increaseThe atomic radius increases down the group
Going down and to the left on the periodic table, atomic radius increases. Therefore, the smallest atomic radius is that of Helium (He), and the largest is that of Francium (Fr). Coincidentally, these are also the most and least reactive elements.
Atomic radius increases down the group. So indium will have the largest atomic radius among the options given.
As you go down group 1, the atomic number and atomic mass increase. Electronegtivity decreases and atomic radius increases.
The atomic radius of elements increases as you go down a group. This increase in radius as you go down a period is primarily caused by the increasing principal quantum number of the outer electron shells.
atomic radius increases as you go down the group and decreases as you go across the period therefore the smallest atomic radius for group 14 is carbon.
Atomic size increases down the group. The number of shells increases causing more atomic radius.
They have the same valency. The atomic radius of elements increases by one as you go down the group. They also have the same properties
As you look down a group you notice that the atomic radius increases or becomes larger.
Atomic radius increases down the group. This is because of the increase in number of shells.
Down the group, atomic radius increases. This is due to increase in number of shells.
Yes. The atomic radius increases down the group. This is because number of shells increases down the group.
It tends to increaseThe atomic radius increases down the group
Sulfer. The atomic radius increases as you go down a group.