Molarity Notation: What Does TiA ^{-1} Mean?

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Discussion Overview

The discussion revolves around the notation of molarity, specifically the meaning of the unit "mol L^{-1}" and the implications of using "L" versus "l" for liters. Additionally, there are inquiries about balancing a redox reaction involving tin and silver ions, with participants seeking clarification on coefficients and the proper representation of the reaction.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Homework-related
  • Mathematical reasoning

Main Points Raised

  • Some participants inquire about the meaning of "TiA^{-1}" and "mol L^{-1}", with one explaining that "L" denotes "per liter" and is equivalent to molarity.
  • Another participant argues that "liter" should be abbreviated as "l" rather than "L", claiming that "L" stands for length.
  • There is a discussion about the proper balancing of a redox reaction involving Sn^{2+} and Ag^{+}, with one participant suggesting that silver is a spectator ion.
  • Some participants express confusion over the coefficients in the redox equation, with one participant attempting to clarify the electron transfer process and the resulting coefficients for tin and silver.
  • There is contention over the use of "L" versus "l" for liters, with references to NIST and IUPAC guidelines, and differing opinions on which abbreviation is more acceptable.
  • One participant acknowledges a previous typo in their post regarding the reaction, leading to further clarification on the correct representation of the redox equation.

Areas of Agreement / Disagreement

Participants express differing views on the correct abbreviation for liters, with no consensus reached. The discussion on the redox reaction also remains unresolved, as participants provide various interpretations and corrections without a definitive agreement on the coefficients.

Contextual Notes

There are unresolved assumptions regarding the balancing of the redox reaction, and the discussion reflects varying levels of familiarity with chemical notation and conventions.

Who May Find This Useful

Students and educators in chemistry, particularly those interested in chemical notation, molarity, and redox reactions.

preet
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What does the following notation (to the power of -1) mean? TiA

ex. [tex][Na] = 0.050 mol L ^{-1}[/tex]
 
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I have another question (did not want to create a new thread):

"What is the ratio x:y when the equation below is properly balanced?"

[tex]xSn^{2+}(aq) + y Ag^{+}(aq) -> n Sn^{4+}(aq) + m Ag^{+}(s)[/tex]

I've never seen a question like this before... an explanation or a link to a site or something would be greatly appreciated.
 
preet said:
What does the following notation (to the power of -1) mean? TiA

ex. [tex][Na] = 0.050 mol L ^{-1}[/tex]
"L^-1" means "per liter." 0.05 mol/L is 0.05 M.
 
For the first post,it's simply the unit 'liter' (which should be shortened 'l',not 'L' (that stands for length)) raised to the power "-1".

For the second,i'm sure u miss the negative ions...Silver ion is a spectator in a redox ionic reaction.I don't see a connection between "x" & "y".And next time use [itex]\rightarrow[/itex] (code \rightarrow).

Daniel.
 
preet said:
I have another question (did not want to create a new thread):

"What is the ratio x:y when the equation below is properly balanced?"

[tex]xSn^{2+}(aq) + y Ag^{+}(aq) -> n Sn^{4+}(aq) + m Ag^{+}(s)[/tex]
Simply balance the equation and give the ratio of x to y. This is a re-dox reaction. They're usually solved using the method of "half-reactions."
 
Ooooops! I thought that was "Ag," not "Ag+"...and there is something wrong, here. Sn(+4) + 2Ag -> Sn(+2) + 2Ag(+) might be the reaction, but not what you have.
 
That's what i said above and it seemed weird to me,too that "Ag" doesn't undergo either reduction or oxdation.

Daniel.
 
http://img196.exs.cx/img196/5966/chemeq3es.gif

Maybe its a typo?
 
Yeah,a typo in YOUR POST...

[tex]Sn^{2+}_{(aq)} + Ag^{+}_{(aq)}\rightarrow Sn^{4+}_{(aq)}+Ag\downarrow[/tex]

Now you can do the redox properly...

Daniel.
 
  • #11
Nope,it's incorrect.It's the same way they teach "k" instead of "K" for Kg...It's outrageous.

Daniel.
 
  • #12
Have you read comment on the NIST page? L was adopted in 1979 and is internationally accepted. So it is correct.

IUPAC lists both forms just like NIST does:

http://www.iupac.org/reports/1993/homann/units51.html

I was taught l 30 years ago and I am not advocating L - but it seems L is now accepted by all major institutions and I must agree with the fact that L is much less prone to be mistaken with 1 then l is. It doesn't mean I like it :)


Chemical calculators for labs and education
BATE - pH calculations, titration curves
 
Last edited by a moderator:
  • #13
Borek said:
...And many people convinced me to use L ...
I usually use "L" for liter, and "ml" for milliliter. When on a computer or on the Net where certain specific fonts are employed, I *HATE* to use "l" because it looks too much like "I".
 
  • #14
I explained the reasoning with "l" vs."L".Capitals are used for physical quantities and multiples.Liter is not a part of the units which use capitals...I'm sorry for the French,but they're wrong.

Daniel.
 
  • #15
Capitals are used for physical quantities and multiples.

m stands for mili and M for Mega - both are SI multiples.

s stands for second, K for Kelvin - both are base SI units.

So either I don't understand what you have written or you are not right :wink:

What I am aiming at is that there are no 'hard' rules.

And, while we can criticize units abbreviations defined by international organizations like IUPAC or CGPM we have no choice but to accept them (and to fight for changes if we think it is important) :smile:


Chemical calculators for labs and education
BATE - pH calculations, titration curves
 
  • #16
Sorry,i wasn't really precise.It happens from time time,i'm human,though.I may be wrog,occasionally.

Daniel.
 
  • #17
Im sorry to bring this post up but I wanted to be sure that I was doing the redox equation right...

[tex]Sn^{2+}_{(aq)} + Ag^{+}_{(aq)}\rightarrow Sn^{4+}_{(aq)}+Ag[/tex]

was the equation (sorry for my typo earlier)

And I needed to find the coeffecient on the left side of the equation (in front of tin and silver)... so..

*tin has lost two electrons
[tex]Sn^{2+}\rightarrow Sn^{4+}+ 2e^{-}[/tex]

*silver has gained one electron (one atom of silver has gained one electron)
[tex]Ag^{+} + e^{-}\rightarrow Ag[/tex]

*2 electrons were lost by tin so to balance that I multiply Ag by 2...

and the coeffecients are 1 in front of Sn and 2 in front of Ag? Is this right? TiA!
 

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