In organic chemistry, CO2 happens to be the most oxidized molecule available (thus being the most stable in our environment). Double bonded carbonyl molecules like CO2 have no more energy left to be utilized. For example, burning compounds like CH4 (methane) will reduce it all into CO2. Another example is that our body carries out metabolism from sugar into CO2.
aromatic diazo compounds are stabilize by resonance where as in alifati it is not found
Your question has a false assumption. Water is a very stable substance and it is not toxic.
Oxygen has six valence electrons, which means that it needs to gain two to become stable. it takes much more energy for oxygen to lose its 6 valence electrons than it would be to gain 2. When atoms form compounds, they become stable.
Now (2012) more than 60 000 000 chemical compounds are known.
In most chemical environments, Pb (II) is more stable than Pb (IV). Therefore, Pb (IV) compounds will often extract electrons from other materials to form a Pb (II) compound instead.
Compounds
Carbon
Compounds that are joined in reactions have undergone a synthesis reaction. The compound formed is more complex than the two reactants.
A chemical compound is comprised of two or more chemical elements. For example, water, H2O, is comprised of hydrogen and oxygen. Some compounds are tremendously more complicated than water, but all compounds are composed of elements.
No. They're different chemical compounds, and the relationship is a lot more complicated than that.
Oxygen is much more reactive than nitrogen, somewhat more common than nitrogen, and tends to form much more stable compounds than nitrogen.
Oxygen has six valence electrons, which means that it needs to gain two to become stable. it takes much more energy for oxygen to lose its 6 valence electrons than it would be to gain 2. When atoms form compounds, they become stable.