33.39 mL of the I2 solution from above is required to titrate a sample

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To titrate a sample containing As2O3, 33.39 mL of I2 solution is needed, and the molarity of the I2 solution is 1.29 M. The relationship between moles of As2O3 and I2 indicates that 1 mole of As2O3 reacts with 2 moles of I2. Using the provided molarity, the mass of As2O3 calculated is 4.26 g. The discussion also touches on sigma and pi bonds, confirming that sigma bonds are formed first, with pi bonds being possible only after sigma bonds are established.
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Homework Statement


33.39 mL of the I2 solution from above is required to titrate a sample containing As2O3. Calculate the mass of As2O3 (197.8 g/mol) in the sample.

As2O3 + 5(H2O) + 2I2 → 2(H3AsO4) + 4HI

Homework Equations

The Attempt at a Solution


MolarMass_I2=254 g/mol
MolarMass_As2O3=197.8 g/mol
1 mol As2O3:2mol I2

I know I would have to get the mol of both I2 and As2O3 somehow in order to plug them into that relationship above.

I think Molarity may possibly be involved.

The problem is that while I know that there is 0.03339 L of I2, I don't know the concentration of I2 so i don't know how I can arrive at the number of mol of I2.

Homework Statement


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How many sigma bonds? pi bonds?

The Attempt at a Solution


There are 6 sigma bonds since there are a total 6 of bonds between 6 atoms since all atoms have electrons in the s orbital.
There are 4 pi bonds between N and C, C and C, C and C, C and C. This is because each atom has electrons in orbital 2p.
 
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No way to solve the first problem without knowing concentration of iodine - but the problem states "solution from above", so most likely there were some information provided earlier.

Check what are pi bonds.
 
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Well... I didn't see the "solution above part". The solution of I2 has a molarity of 1.29 M. Using that, I found that the mass of As2O3 is 4.26g.

Also, pi bonds are the hybrid orbitals formed from the overlapping of 2 p orbitals.
 
WK95 said:
Also, pi bonds are the hybrid orbitals formed from the overlapping of 2 p orbitals.

Which bonds are created first - sigma, or pi? Is it possible to have a pi bond without sigma?
 
Borek said:
Which bonds are created first - sigma, or pi? Is it possible to have a pi bond without sigma?

I believe sigma bonds are created first. All ground state atoms will have s orbitals so for ground state atoms, there must always be sigma bonds right? If excited, then pi bonds can exist without sigma bonds.
 
WK95 said:
I believe sigma bonds are created first.

Good. Now, wherever there are two atoms bonded, first bond is sigma, rest - if they exist - are pi. How many sigma bonds? How many pi bonds?
 
Oh ok. i get it now. Thanks.
 

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