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- Why is H2N2O2, and not HNO, called hyponitrous acid?
According to IUPAC Red book page 140, hyponitrous acid, correctly said as hypodintrous acid, is $\\ce{H2N2O2}$ while the compound $\\ce{HNO}$, azanone also exists So why is the dimer considered the
- The Lewis structure of HNO3 - Chemistry Stack Exchange
So I was checking the structure of nitric acid in Wikipedia, however I couldn't quite fathom why it looked like that because it seemed to contradict the following statement: A Lewis structure with
- orbitals - Hybrization of H in HNO - Chemistry Stack Exchange
There is a problem that states: Find the molecular geometry of each molecule and the hybridization of each atom in the molecule The two molecules are HNO and HCN I found HNO to be sp3 hybridized
- inorganic chemistry - Which is a better oxidising agent: concentrated . . .
I was reading the Wikipedia page on nitric acid and saw the reaction of concentrated $\\ce{HNO_3}$ and dilute $\\ce{HNO_3}$ with $\\ce{Cu}$ It is mentioned that: Copper reacts with dilute nitric aci
- Sn + HNO3: When will the metastannic acid H2SnO3 appear?
I am dissolving tin in nitric acid What reactions will take place depending on the conentration of $\\rm{HNO}_3$ and temperature? Particularly, I am interested when the metastannic acid $\\rm{H_2Sn
- concentration - Find number grams of the solute in a dissolution given . . .
$\ce {HNO_3}$ has a molar mass of $63$ So to find out how many moles of $\ce {HNO_3}$ are in the dissolution I need to divide the grams of $\ce {HNO_3}$ by $63$
- Under which criteria HNO3 is a concentrated or a diluted acid?
I would like to buy nitric acid to remove impurities of copper on an aluminum plate I read that a 10% nitric acid will do the job However I've also read that concentrated nitric acid is very corr
- Electrophilic substitution of benzene with conc. HNO₃ and HNO₂
I started with the solution by deciding the Lewis acid out of $\ce {HNO_3}$ and $\ce {HNO_2}$ I guess $\ce {HNO_3}$ should be Lewis acid as O S of N is higher in it Hence, I wrote the reaction to generate electrophile: $$\ce {HNO_3 + HNO_2 -> NO_3^- + H_2O + NO^+}$$ Now, it is a bit clear who's the electrophile Hence, I thought that first option would be the final product But, according
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