Organic compounds are generally less stable than inorganic compounds due to the presence of carbon-hydrogen (C-H) bonds, which can be more reactive under certain conditions. The reactivity of organic compounds often arises from functional groups that can undergo chemical transformations more readily than the bonds typically found in inorganic compounds. Additionally, the complexity and variety of organic structures can lead to more potential reaction pathways, making them more prone to decomposition or reaction. In contrast, many inorganic compounds have stronger ionic or covalent bonds that contribute to their stability.
Organic compounds are generally more flammable than inorganic compounds. This is because organic compounds contain carbon and hydrogen, which readily react with oxygen in the air to produce heat and light. Inorganic compounds, on the other hand, often have stronger bonds that make them less reactive and less flammable.
Organic lead compounds contain carbon atoms in their molecular structure, while inorganic lead compounds do not. Organic lead compounds are typically more toxic and volatile than inorganic lead compounds. Inorganic lead compounds are commonly found in minerals and are less likely to easily enter the body through inhalation or skin contact compared to organic lead compounds.
Both inorganic and organic compounds have important roles in various processes. Inorganic compounds, such as salts and minerals, play essential roles in bodily functions and chemical reactions. Organic compounds, like carbohydrates and proteins, are vital for the structure and function of cells. The importance of a compound depends on its specific role in a given context.
Basically, organic compounds have carbon. Inorganic do not (though there are some exceptions). Inorganic bases are generally OH- donors, whereas organic bases are generally nitrogen base donors.
Organic molecules are more stable than inorganic molecules because they contain strong covalent bonds between carbon atoms, which provide high stability. Inorganic molecules often involve ionic or metallic bonding, which can be more susceptible to environmental factors causing them to be less stable. Additionally, organic molecules have complex structures that can contribute to their stability.
In general organic compounds / substances / materials contain carbon atoms bonded with other atoms and/or those related to life. It is the chemistry of carbon containing compounds. Inorganic is everything else and generally do not contain carbon (with some exceptions).
organic compounds contain C; H and other elements they form bonds in organic compounds which are less stable as compare to their oxides so to achieve the stability they burn and form stable oxides with oxygen of air....
Organic compounds can be both flammable and combustible. Flammable materials ignite easily and burn rapidly at low temperatures, while combustible materials require higher temperatures to ignite and burn. The flammability and combustibility of organic compounds depend on their chemical structure, such as the presence of carbon-carbon or carbon-hydrogen bonds that can easily break and react with oxygen in the air.
That depends. An organic compound has elements made from nature itself. An inorganic is the opposite meaning that it is made from compounds and elements that are not made from nature itself,more or less, it's kind of like manmade compounds.
A compound such as NH3 (ammonia) is dissolved in water to form an aqueous solution, so the concentration decreases and is less harmful. Ammonia is not organic. If the compound doesn't have Carbon, it isn't organic, and yes it can still be dissolved in water.
Ring strain in organic compounds can affect their reactivity and stability. Compounds with high ring strain are more reactive and less stable due to the strain energy stored in the ring structure. This can lead to increased reactivity in reactions involving breaking or forming bonds within the ring, as well as decreased stability compared to compounds with lower ring strain.
Each element can form stable, less stable or unstable compounds.