- 100 picometres
-
To help compare different orders of magnitude this page lists lengths between 10−10 m and 10−9 m (100 pm and 1 nm).
Distances shorter than 100 pm
- 100 pm — 1 angstrom
- 100 pm — covalent radius of sulfur atom[1]
- 120 pm — van der Waals radius of a neutral hydrogen atom[2]
- 126 pm — covalent radius of ruthenium atom
- 135 pm — covalent radius of technetium atom
- 153 pm — covalent radius of silver atom
- 154 pm — mode length of (C-C) covalent bond
- 155 pm — covalent radius of zirconium atom
- 175 pm — covalent radius of thulium atom
- 200 pm — highest resolution of a typical electron microscope[3]
- 225 pm — covalent radius of caesium atom
- 340 pm — thickness of single layer graphene
- 356.68 pm — width of diamond cell (unit cell)
- 403 pm — width of lithium fluoride cell
- 500 pm — width of α helix protein
- 560 pm — width of sodium chloride cell
- 700 pm — width of glucose molecule
- 780 pm — mean width of quartz cell
- 820 pm — mean width of ice cell
- 900 pm — mean width of coesite cell
- 900 pm — width of sucrose molecule
Distances longer than 1 nm
See also
Orders of magnitude for length in E notation shorter than one metre: <−24 −24 −23 −22 −21 −20 −19 −18 −17 −16 −15 −14 −13 −12 −11 −10 −9 −8 −7 −6 −5 −4 −3 −2 −1 0 longer than 1 metre: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Notes
- ^ Mark Winter (2008). "WebElements Periodic Table of the Elements / Sulfur / Radii". http://www.webelements.com/sulfur/atom_sizes.html. Retrieved 2008-12-06.
- ^ Mark Winter (2008). "WebElements Periodic Table of the Elements / Periodicity / Van der Waals radius / periodicity". http://www.webelements.com/periodicity/van_der_waals_radius/. Retrieved 2008-12-06.
- ^ "Resolution of an Electron Microscope". Archived from the original on 2009-04-29. http://hypertextbook.com/facts/2000/IlyaSherman.shtml. Retrieved 2009-04-25.
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