Blood that is enriched with oxygen.
Fe2O3
Yes, oxygen can be oxidized in a chemical reaction.
Copper is a metal that turns green when oxidized.
The material that is oxidized in the given reaction is Iron. Fe2O3 is iron oxide which can occur naturally as the mineral magnetite.
During the electrochemical reaction, the anode is oxidized.
oxidized blood
Red blood cell glucose can be oxidized to products such as carbon dioxide and water through the process of cellular respiration.
That's just nature. If it were'NT nature i'd have like pink-blue blood and you would have like black blood....
Your arteries carry your red blood cells to the parts of the body, and your veins carry blood to the heart to be re-oxidized so they can do their job all over again.
Oxidized.
The protein hemoglobin, found in the red blood cells, is what makes blood red.
Fe2O3
The iron is oxidized and the silver is reduced.
Copper is a metal that turns green when oxidized.
Yes, oxygen can be oxidized in a chemical reaction.
iron. the blood contains iron and when you breathe, you give oxygen to it. so your blood is red pretty much because of oxidized iron. the red blood cells take the oxygen through the body and when it is deposited the blood turns blue, that's why the veins in your wrist are blue.
There are two well known types of "blood colors". The color of the blood is closely related to the oxygen molecules. O2 molecules can be bound in different ways: by the ferrous heme groups of the globins (e.g., myoglobin and hemoglobin); or by two Cu+ ions held in close proximity by six His side chains in hemocyanins. Fe2+ and Cu+ ions and ferrous heme groups free in solution do not bind reversibly; instead, they oxidized to the Fe3+ and Cu2+ forms. Under these circumstances, when Fe2+ is oxidized to Fe3+ acquires a red color, this is the reason why blood is red in upper organisms, those that have hemoglobin. On the other hand, when Cu+ oxidizes to Cu2+ turns to blueish color. In lower organisms (e.g., crustacea) the blood turns blueish when is exposed to oxygen. In resume, we have two blood colors, red and blueish, when it's oxidized.