C6H12O6 (Glucose) is formed from the Carbon in CO2 and H2O (water) is formed from the Oxygen in Co2
it refers to the complementary metabolic pathways utilized in plants to optimize CO2 fixation. The "C" stands for Calvin Cycle, which is the light-independent reactions, while the "4" indicates the four-carbon compound produced during the initial step of CO2 fixation. This adaptation allows plants to minimize photorespiration and improve efficiency in certain environments like hot and dry conditions.
Atoms filled with outermost energy levels tend to be stable and are less likely to participate in chemical reactions. These atoms have a full valence shell, so they are less reactive and more likely to form stable compounds.
The high specific heat capacity of water allows it to absorb a large amount of heat before its temperature significantly increases. This property helps cells maintain a stable temperature by absorbing excess heat produced during chemical reactions, which prevents sudden changes in temperature that could harm the cell's function.
The stability of DTT in solution directly impacts its effectiveness in biochemical reactions. If DTT is unstable and degrades quickly, it may not be able to effectively reduce disulfide bonds in proteins, which is a key function of DTT in many biochemical reactions. Therefore, a stable DTT solution is crucial for optimal performance in these reactions.
Noble gases are non-reactive due to their stability. The outer most shell shoud have 8 electrons to be stable and all the elements in the eighth group have 8 electrons in their outer most shell so they do not need to take part in chemical reactions to become stable THAT is why they are non reactive!
Carbon monoxide is produced by incomplete combustion of hydrocarbons. Haemoglobin in your blood is not a stable compound, such that it can transport oxygen around your body. What carbon monoxide does is to react with the haemoglobin to form carboxyhaemoglobin, which is a stable compound, and you wouldn't get enough oxygen, which then you die of asphyxiation (if I didn't forget anything).
The concept of molecular orbital stability affects the reactivity of a chemical compound by determining how easily the compound can undergo chemical reactions. A more stable molecular orbital configuration makes it harder for the compound to react with other substances, while a less stable configuration makes it more reactive. In general, compounds with more stable molecular orbitals are less reactive, while those with less stable orbitals are more reactive.
no
It is not reactive.It is a neutral compound.
No, not only phosphorus can form stable compounds. Many elements can combine to form stable compounds depending on their chemical properties and bonding capabilities. These compounds can be created through various chemical reactions involving different elements.
Such compound is only Ninhydrin, an aromatic diketo diol.
Yes, a stable compound can be made from lithium and oxygen to form lithium oxide (Li2O). This compound is stable and is commonly found in nature.
The oxidation state of tungsten in its most stable compound is 6.
The cycloheptadienyl cation is a stable aromatic compound with a planar structure. It is highly reactive due to its positive charge, making it a strong electrophile in chemical reactions. The cation can undergo various reactions, such as nucleophilic attack and addition reactions, due to its electron-deficient nature.
YES
Na2O, Sodium Oxide, is a stable compound used in glass and ceramics.
The heats of combustion of a compound are related to its stability. Compounds with higher heats of combustion are generally less stable because they release more energy when they react with oxygen. This means they are more likely to undergo combustion reactions and are less stable compared to compounds with lower heats of combustion.