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The hydrogen molecule is so small that it would escape through the cracks in the pipes used for natural gas.
The molecule is so stable that it is frequently recovered from mammoth bones and ancient human remains.
While oil refineries make hydrogen, for use in the refining process, the molecule is so small that it would escape from conventional pipelines.
The ethanol molecule is so small that increasing the signature height beyond height 2 makes no difference.
Scientists have finally figured out why the molecule is so picky--a finding that may shed light on the addictiveness of smoking.
Now, a ground-based experiment has revealed why this life-giving molecule is so rare in the cosmos: because oxygen atoms cling tightly to stardust, preventing them from joining together to form oxygen molecules.
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Could it be that this molecule was so captivated by its inclusion in Paul's review that it wantonly chose to form new, revealing bonding relationships, ones that are simply unheard of in our more staid and prudish chemistry?
The daughter ions observed in all scan spectra indicated that the molecule was so unstable that the dissociation occurred in the ion source (source CID).
The triple bond between atoms in the nitrogen molecules is so strong (226 kilocalories per mole, more than twice that of molecular hydrogen) that it is difficult to cause molecular nitrogen to enter into other combinations.
In Newtonian formulation, the number of molecules is so large ((^{sim }10^{23})) for a small volume of fluid in practice that it is practically impossible to describe the whole system with the most advanced computational techniques.
For surface 0, due to the absence of nanoposts and the hydrophobic property between aluminum and argon, the number of evaporation molecules is so little that the boiling phenomenon is not obvious, so it is a necessary thing to add nanostructures to flat surface to enhance the evaporation and boiling rate.
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com