The hydrogen bubble technique involves placing a small amount of hydrogen gas near a sample in an NMR spectrometer. The hydrogen gas creates bubbles that help determine the isotropic line (line width) of the NMR signal, which can provide information about the sample's molecular motion and interactions. This technique is particularly useful in studying dynamics in solution NMR spectroscopy.
if the bubble pops remember where it was or just deal ;0;0:):):);0;0;0;:):)
hydrogen
Its a chemical reaction with the bacteria.
the proteins in the blood the proteins in the blood
Scoliometer-- A tool for measuring trunk asymmetry; it includes a bubble level and angle measure.
There is a easy way. Just bubble it in water.
It is the hunting technique used by hump-back whales in groups. The method is named so because the aerial view looks like a large spiral bubble.
it is not gas it is just air
The bubble hydrogen gas through oil in the presence of a catalyst.
Not much! Some of it, a tiny amount, might bond to the water molecules, but as water already has its standard H2O composition, most extra hydrogen will simply bubble out, hydrogen being lighter than water. For details and discussion of hydrogen bonding with water, see Related Links below these advertisements. The solubility of hydrogen gas in water at 0oC is 0.0019 grams of hydrogen per kilogram of water. At 60oC, the solubility is 0.0012 grams of hydrogen per kilogram of water. That is a tiny amount that will dissolve in the water. The rest would simply bubble out as the previous answerer said. Also, most likely, the water would be already saturated with hydrogen since it was in contact with the atmosphere, which contains hydrogen; so unless you took steps to purge the hydrogen from the water to get water not already saturated with hydrogen, all of the added hydrogen would bubble out since the water would be already saturated with hydrogen.
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The Nobel Prize in Physics 1968 was awarded to Luis Alvarez for his decisive contributions to elementary particle physics, in particular the discovery of a large number of resonance states, made possible through his development of the technique of using hydrogen bubble chamber and data analysis.