According to the definition of an exo/endo-thermic compound, all metallic oxides (rusty metals) are exothemic compounds, since their forming reaction starting from elemenets (Me + O2) is called rusting as an example of an exothermic reaction.
No, rusting of iron is not a photochemical process. Rusting is a chemical reaction that occurs in the presence of moisture and oxygen, leading to the formation of iron oxide. Photochemical processes involve light as a driving force for chemical reactions.
Yes, rusting of iron can occur in distilled water, although the process may be slower compared to if the iron is exposed to water containing ions or impurities that can catalyze the rusting process. Rusting is a chemical reaction in which iron reacts with oxygen in the presence of moisture to form iron oxide.
Rusting metal is an exothermic process because it releases heat as it occurs. This process involves the reaction of iron with oxygen in the presence of water to form iron oxide (rust), and this reaction releases energy in the form of heat.
No, rusting of iron is a chemical change. It occurs when iron comes in contact with oxygen and water, leading to the formation of iron oxide (rust). This process involves a chemical reaction, where the iron atoms combine with oxygen atoms to form a new substance.
Rusting is an eXothermic reaction, not an eNDothermic.
slow
No, iron rusting is oxidation process
It is an endothermic reaction because in endothermic reaction energy is added .In that reaction nitrogen does not react with oxygen without energy added in the shape current . In that reaction 3000`current is applieded to take reaction b/w nitrogen and oxygen
When Iron became in contact with water and oxygen or other strong oxidants or acids the rusting took place. The rusting is an electrochemical process which started with the transfer of electrons form iron to oxygen. If salt is present then it also accelerate the rusting process.
No, rusting of iron is not a photochemical process. Rusting is a chemical reaction that occurs in the presence of moisture and oxygen, leading to the formation of iron oxide. Photochemical processes involve light as a driving force for chemical reactions.
Yes, rusting of iron can occur in distilled water, although the process may be slower compared to if the iron is exposed to water containing ions or impurities that can catalyze the rusting process. Rusting is a chemical reaction in which iron reacts with oxygen in the presence of moisture to form iron oxide.
Most of the metals will oxidize, but the only one for which that process is called "rusting" is iron.
Rusting metal is an exothermic process because it releases heat as it occurs. This process involves the reaction of iron with oxygen in the presence of water to form iron oxide (rust), and this reaction releases energy in the form of heat.
No. Combustion is where something burns. Rusting is an example of oxidisation. ------------------ Yes, rusting is an example of slow combustion. And yes it is an oxidation reaction too, as Combustion is an oxidation reaction with an evolution of heat and/or light. In rudting there is: 1. Relase of energy. 2. Oxidation Hence, rusting is considered an oxidation reaction.
No. Rusting is a process exclusive to metals, particularly iron.
Rusting of iron is a chemical change because it involves a chemical reaction between iron, oxygen, and water to form a new substance called iron oxide. This process cannot be easily reversed, and the properties of the original iron are changed as a result of the rusting process.
No, rusting of iron is a chemical change. It occurs when iron comes in contact with oxygen and water, leading to the formation of iron oxide (rust). This process involves a chemical reaction, where the iron atoms combine with oxygen atoms to form a new substance.