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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
- Neutralization reaction between ammonia and nitric acid
Complete and balance the following molecular equation (in aqueous solution); include phase labels Then, write the net ionic equation $~\\ce{NH_3 + HNO_3 - gt; ?}$ I thought that the acid $\\ce{HNO
- 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
- 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
- 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
- equilibrium - Which one is nitric Acid, HNO3 by itself, or when it is . . .
Different compounds and mixtures are described as nitric acid Depending on context and use several chemicals are described as "nitric acid" The common laboratory chemical usually called concentrated nitric acid is a 68% solution of nitric acid in water (the composition is set as this is an azeotropic mixture that is easier to manufacture) But other reagents consist of mostly nitric acid with
- 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 $63$
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