yes. it can be oxidized nitrites can be oxidized by KMnO4 to give nitric acid.theoretical concept from E0 values.
Yes, Yes it does
By bubbling oxygen (or air) through the water, splashing water through the air (waterfall). That is where the oxygen that fish breathe comes from. It is separate from the oxygen that was chemically combined with hydrogen to form the water.
Generally speaking, reaction rate increases as concentration increases. If N2O5 is a reactant in a chemical reaction, a greater concentration of it means it will react more quickly. This is because there is more of that reactant available for the reaction.
The chemical equation is:2 KI + Cl2 = 2 KCl + I2
Nitrate can also be lost through denitrification (gaseous loss of nitrous oxide to the atmosphere) should the soil become waterlogged. For this reason, ammonium nitrate is not suitable for use in flood irrigated rice.
Ammonium; nitrates; nitrites
This is created by bubbling carbon dioxide under pressure through the soda. The fizz is carbon dioxide bubbling off.
not a lot. only use nitrous when your going through a roadblock, or if you suddenly stop. NEVER use nitrous just for speed.
The photosphere.
Bubbling through limewater. The gas is present if the limewater turns cloudy :)
Only if it is a huge surge of electrick
Yes, Yes it does
Bubbling motions pass energy through this layer of the sun
A bubbling noise in a well pressure tank is a sign of a hole in the tank. It means that air is getting into the tank and causing air to bubble through the water.
The photosphere is the uppermost layer of the sun. It passes energy through this layer with a bubbling motion, carrying hotter, less dense material to the upper surface as the cooled, denser material sinks deeper into the surface.
These are two distinct words. To gargle is to rinse the throat by tilting the head back and bubbling a liquid in the throat by breathing out through the mouth. To gurgle means to make a bubbling sound by permitting a liquid to flow out of an opening.
As in a fish tank? It increases the oxygen saturation, or oxygen dissolved in the water, so that the fish may absorb it through their gills.