Input interpretation
group 10 elements | atomic volume
Results
nickel | 1.03×10^7 pm^3 (cubic picometers) palladium | 1.15×10^7 pm^3 (cubic picometers) platinum | 1.03×10^7 pm^3 (cubic picometers) darmstadtium | (data not available)
group 10 elements | atomic volume | 1.03×10^7 pm^3 (cubic picometers) (median) (based on 3 values; 1 unavailable)
Ranked values
| | visual | ratios | 3 | nickel | | 0.9 | 1 2 | platinum | | 0.9 | 1 1 | palladium | | 1 | 1.1
Plot
Plot
Periodic table location
Periodic table location
Atomic radii properties
atomic radius (empirical) | median | 135 pm | highest | 140 pm (palladium) | lowest | 135 pm (nickel and platinum) atomic radius (calculated) | median | 169 pm | highest | 177 pm (platinum) | lowest | 149 pm (nickel) | distribution | covalent radius | median | 136 pm | highest | 139 pm (palladium) | lowest | 124 pm (nickel) van der Waals radius | median | 163 pm | highest | 175 pm (platinum) | lowest | 163 pm (nickel and palladium)
Units
Unit conversions for median atomic volume 1.03×10^7 pm^3
1.03×10^-29 m^3 (cubic meters)
1.03×10^-26 L (liters)
3.6×10^-28 ft^3 (cubic feet)
Comparison for median atomic volume 1.03×10^7 pm^3
≈ 83 × volume of a helium atom ( 4 Pi/3 atomic radii of helium (the smallest atom)^3 )
Corresponding quantities
Radius r of a sphere from V = 4πr^3/3: | 135 pm (picometers) | 5.3×10^-9 inches
Edge length a of a cube from V = a^3: | 218 pm (picometers) | 8.6×10^-9 inches