p2+5o2 to give p2o10
If there is an excess of air, the reaction should produce diphosphorus pentoxide as its only product. If additionally the phosphorus molecule is simply a phosphorus atom, the balanced equation is: 4 P + 5 O2 -> 2P2O5. If phosphorus is considered to form a tetraatomic molecule, the equation would be: P4 + 5 O2 -> 2 P2O5
If you mean elemental Phosphorous (As in, just a chunk of P), I believe that the reaction would go to Phosphorous pentachloride like this: P + 5 Cl--> PCl5 THe Lewis Dot structure works out that way, anyways.
There is no reaction when their molar ratio is around 1...but when phenol is present in excess it gives triphenylphosphate....
The phosphorus sink acts as a storage system for phosphorus in the environment, helping to regulate the amount of phosphorus available for living organisms. It helps to maintain a balance in the global phosphorus cycle by storing excess phosphorus and releasing it back into the environment when needed.
When 4 moles of aluminum react with an excess of chlorine gas, 4 moles of aluminum chloride are produced. This is because the balanced chemical equation for the reaction is: 2Al + 3Cl2 -> 2AlCl3 This means that 2 moles of aluminum react with 3 moles of chlorine gas to produce 2 moles of aluminum chloride, so 4 moles of aluminum will produce 4 moles of aluminum chloride.
If there is an excess of air, the reaction should produce diphosphorus pentoxide as its only product. If additionally the phosphorus molecule is simply a phosphorus atom, the balanced equation is: 4 P + 5 O2 -> 2P2O5. If phosphorus is considered to form a tetraatomic molecule, the equation would be: P4 + 5 O2 -> 2 P2O5
If you mean elemental Phosphorous (As in, just a chunk of P), I believe that the reaction would go to Phosphorous pentachloride like this: P + 5 Cl--> PCl5 THe Lewis Dot structure works out that way, anyways.
Diphosphorus pentoxide, P2O5, is commonly prepared by burning phosphorus in excess oxygen. The reaction produces white fumes of phosphorus pentoxide which can be condensed to form the solid compound.
There is no reaction when their molar ratio is around 1...but when phenol is present in excess it gives triphenylphosphate....
Human beings contribute to the phosphorus cycle by extracting phosphorus from the earth for use in fertilizers and then releasing excess phosphorus into water bodies through agricultural runoff. In the sulfur cycle, human activities such as burning fossil fuels and mining operations release sulfur dioxide into the atmosphere, which can then contribute to acid rain and alter ecosystem dynamics.
Excess phosphorus can lead to eutrophication in bodies of water, causing excessive algae growth which depletes oxygen levels. This can result in harm to aquatic life and disrupt the balance of the ecosystem.
The phosphorus sink acts as a storage system for phosphorus in the environment, helping to regulate the amount of phosphorus available for living organisms. It helps to maintain a balance in the global phosphorus cycle by storing excess phosphorus and releasing it back into the environment when needed.
When excess potassium iodide is reacted with chlorine, the solution changes from colorless to dark brown due to the formation of Iodine (I2). Excess potassium iodide reacts with chlorine to form iodine, which imparts the dark brown color to the solution.
eutrophication
To find the mass of chlorine gas needed, we need to use the balanced chemical equation for the reaction. Since the equation is not provided, I can't calculate the mass without it. Please provide the balanced chemical equation for the reaction between chlorine gas and fluorine gas to form chlorine monofluoride, and I can assist you further.
yes
We need 6,935 g aluminium; the excess of aluminium is 0,97 g.