Chloride What a difference a D makes!. Chloride is not chlorine Measuring chloride is acquiring information about a very different property of the water.

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Presentation transcript:

Chloride What a difference a D makes!

Chloride is not chlorine Measuring chloride is acquiring information about a very different property of the water. Chloride is about “salt content”. Cl 2 Cl -

Saltiness The presence of chloride is not lethal to humans, but it is objectionable in water supplies. Chloride is bad for plants if the concentration is too high… Why?

Osmotic pressure Does anyone know what osmotic pressure is? Osmotic pressure is the pressure required to overcome the natural pressure exerted by a solution by virtue of having a concentration.

Why is it important? Consider two solutions separated by a semi-permeable membrane (meaning water can pass through but nothing else) at room temperature (298 K). On one side of the membrane is a 1 M NaCl solution. On the other side is a 4 M NaCl solution.

1 M NaCl4 M NaCl What Happens?

1 M NaCl4 M NaCl The water moves from the 1 M side to the 4 M side. Why? 

1 M NaCl4 M NaCl Both solutions “push” on the membrane because of their osmotic pressure The bigger push wins! 73.5 atm 24.4 atm 97.9 atm Note the direction of the arrows. Osmotic pressure is pushing AGAINST the solution and is directly proportional to concentration.

Poor Man’s Fountain You can actually make a fountain out of a straw packed with wet sugar and a bowl of water. water Straw filled with sugar water membrane

Why is this bad for plants…? Plants (and animals) are made up of little bags of aqueous solutions. Well, biologists call them “cells” but they really are just little membrane-bound aqueous solutions.

Osmotic pressure The water flows from the more dilute solution to the more concentrated solution.

And if you’re a plant…??? If the salt concentration in the soil (or water) is too high, water flows out of the plants not into them!!!!!! Conquering armies used to “salt the fields”. Add NaCl to the soil so that nothing would grow in it for years.

Salt is bad, so… We test for “saltiness” or chloride concentration. Anybody want to guess how….??? Titration!

Mohr Method – Titration with silver All titrations require: 1. Reaction 2. Indicator

Mohr Method – Titration with silver Ag + (aq) + Cl - (aq) ↔ AgCl (s) K sp = 3 x What would you see?? A white solid (AgCl) forms. When is your titration done? When the white solid stops forming.

Ag + + Cl -  AgCl B A So, I start with Cl- in my beaker and then add Ag+ to it. What happens?

Ag + + Cl -  AgCl B A After I add 1 Ag+, I get one AgCl…

Ag + + Cl -  AgCl B A After I add 2 Ag+, I get two AgCl…

Ag + + Cl -  AgCl B A After I add 3 Ag+, I get 3 AgCl…

Ag + + Cl -  AgCl B A After I add 4 Ag+, I get 4 AgCl…

Ag + + Cl -  AgCl B A After I add 5 Ag+, I get 5 AgCl…

Ag + + Cl -  AgCl B A After I add 1,000,000 Ag+, I get 5 AgCl. As soon as I made the 5 AgCl, I stopped making any new AgCl – that would be my endpoint!

How would you know it’s stopped? Hard to tell. So we use a second reaction as an indicator. (Much like with the chlorine analysis.) 2 Ag + (aq) + CrO 4 2- (aq) ↔ Ag 2 CrO 4 (s) K sp = 5 x Silver chromate is a red-brown solid

So you add a little chromate! Ag + (aq) + Cl - (aq) ↔ AgCl (s) K sp = 3 x Ag + (aq) + CrO 4 2- (aq) ↔ Ag 2 CrO 4 (s) K sp = 5 x Since the K is smaller and the [CrO 4 2- ] is small – the second reaction won’t happen until the first one is done!

Ag + + Cl -  AgCl B A So, I start with Cl- in my beaker and my chromate indicator and then add Ag+ to it. What happens?

Ag + + Cl -  AgCl B A After I add 1 Ag+, I get one AgCl…

Ag + + Cl -  AgCl B A After I add 2 Ag+, I get two AgCl…

Ag + + Cl -  AgCl B A After I add 3 Ag+, I get 3 AgCl…

Ag + + Cl -  AgCl B A After I add 4 Ag+, I get 4 AgCl…

Ag + + Cl -  AgCl B A After I add 5 Ag+, I get 5 AgCl…

Ag + + Cl -  AgCl B A After I add 6 Ag+, I get 5 AgCl and 1 AgCrO 4 complex which is red- brown

Mercuric Nitrate Method It is also possible to react the chloride with mercury (pH<2.5) - which is how you did the lab: Hg 2+ (aq) + 2 Cl - (aq) ↔ HgCl 2 (aq) Diphenylcarbazone will complex with Hg 2+ to form a purple color.

Sample problem mL of waste water is titrated using the Mohr method. A chromate endpoint is reached after addition of mL of M AgNO 3. What is the chloride concentration in mg Cl - /L?

Solution The Mohr titration has 1:1 stoichiometry M 1 V 1 = M 2 V 2 M 1 (100.0 mL) = ( M) (16.43 mL) M 1 = M Cl -

Units! Units! Units! mg/L is the more common unit for Cl - concentration (as well as Cl 2 actually) M 1 = M Cl - How do I get the units right?

Units! Units! Units! M 1 = moles Cl - 1 L solution We just need to convert moles to mg!

Units! Units! Units! moles Cl - * g Cl - * 1000 mg 1 L solution mole Cl - 1 g = mg/L (which is actually pretty high – anything above 250 mg/L will taste salty)

Sample problem mL of waste water is titrated using the Mercuric Nitrate method. A diphenylcarbazone endpoint is reached after addition of mL of M Hg(NO 3 ) 2. What is the chloride concentration in mg/L?

Solution The Mercuric Nitrate titration has 2:1 stoichiometry Hg Cl- = HgCl 2 i 2 M 1 V 1 = i 1 M 2 V 2 1 M 1 (100.0 mL) = 2 ( M) (16.43 mL) M 1 = M Cl -

Units! Units! Units! mg/L is the more common unit for Cl - concentration (as well as Cl 2 actually) M 1 = M Cl - How do I get the units right?

Units! Units! Units! M 1 = moles Cl - 1 L solution We just need to convert moles to mg!

Units! Units! Units! moles Cl - * g Cl - * 1000 mg 1 L solution mole Cl - 1 g = mg/L (which is actually pretty high – anything above 250 mg/L will taste salty)