Experiment Results: Mixing Solution A with Solution B

AI Thread Summary
An experiment mixing Solution A (potassium iodate) with Solution B (sodium bisulfate) yielded times for a color change, with results showing varying times based on the concentration of potassium iodate. To find the concentration of potassium iodate, the formula used is moles of iodate divided by total volume, leading to a calculated concentration of 0.016 mol/L for specific drop combinations. For determining the order of reaction with respect to potassium iodate, the approach involves graphing 1/time against concentration and analyzing the slope to identify the reaction order. The rate equation indicates that if the rate doubles when the concentration of a reactant is doubled, it suggests a first-order reaction. Understanding these relationships is crucial for accurately interpreting the experimental results and confirming the reaction dynamics.
Roxy
Messages
52
Reaction score
0
We did an experiment where we mixed Solution A with Solution B and found out the time. These are my results:

Solution A (0.020 mol/L potassium iodate solution plus distilled water)
10 drops potassium iodate plus 0 drops distilled water
9 drops potassium iodate plus 1 drops distilled water
8 drops potassium iodate plus 2 drops distilled water
7 drops potassium iodate plus 3 drops distilled water

Solution B (0.001 mol/L sodium bisulfate/ hydrochloric acid/starch)
10 drops
10 drops
10 drops
10 drops

Time is took to turn blue (s)
9
13
10
9

I need help with these questions:

1. How do I find concentration of potassium iodate? (do I divide 0.020 mol/L by something?)

2. And to find order of reaction with respect to potassium iodate I graph 1/time vs. concentration and square or cube it until I get a straight line right? But why do I want a straight line?
 
Chemistry news on Phys.org
I would imagine that you would have been provided with specific instructions for this lab.
It'll probably be best to refer to your manual.

1. volume of potassium iodatexmolarity/total volume=concentration

2.1/time=the rate in this case, find the average slope value.
 
Roxy said:
We did an experiment where we mixed Solution A with Solution B and found out the time. These are my results:

Solution A (0.020 mol/L potassium iodate solution plus distilled water)
10 drops potassium iodate plus 0 drops distilled water
9 drops potassium iodate plus 1 drops distilled water
8 drops potassium iodate plus 2 drops distilled water
7 drops potassium iodate plus 3 drops distilled water

Solution B (0.001 mol/L sodium bisulfate/ hydrochloric acid/starch)
10 drops
10 drops
10 drops
10 drops

Time is took to turn blue (s)
9
13
10
9

I need help with these questions:

1. How do I find concentration of potassium iodate? (do I divide 0.020 mol/L by something?)

Consider the case of 8 drops of iodate with 2 drops of water. Assume all drops have the same volume V.

# moles of iodate in 8 drops = molarity * volume of 8 drops = 0.02 * 8V.

After this has been mixed with 2 drops of water, the total volume becomes 10V.

Now concentration (molarity) = # moles/total volume = 0.02 *8V / 10V = 0.016 mol/L

2. And to find order of reaction with respect to potassium iodate I graph 1/time vs. concentration and square or cube it until I get a straight line right? But why do I want a straight line?
Write down the rate equation for a general n'th order reaction, and you will see why.
 
rate equation is:

r= k[x]^n ...I don't get it

for this lab its

r = k[IO3]^2 right?
 
The rate r is by definition = -d[x]/dt. Substitute this above, and solve the reslting differential equation.
 
Well, observe the experiment data, what happens to the rate when you double any of the reactants? If you wish to be sure calculate the slope of rate vs. concentration, for particular increasing/change in concentration (rate as the numerator). If the rate doubles, then you've got a first order relation, etc...
 

Thread 'Solubility of MgSO47H2O in water'

It seems like a simple enough question: what is the solubility of epsom salt in water at 20°C? A graph or table showing how it varies with temperature would be a bonus. But upon searching the internet I have been unable to determine this with confidence. Wikipedia gives the value of 113g/100ml. But other sources disagree and I can't find a definitive source for the information. I even asked chatgpt but it couldn't be sure either. I thought, naively, that this would be easy to look up without...
View full post »

Thread 'Why does having 8 valence electrons make an element inert?'

I was introduced to the Octet Rule recently and make me wonder, why does 8 valence electrons or a full p orbital always make an element inert? What is so special with a full p orbital? Like take Calcium for an example, its outer orbital is filled but its only the s orbital thats filled so its still reactive not so much as the Alkaline metals but still pretty reactive. Can someone explain it to me? Thanks!!
View full post »

Similar threads

My vitamin C titration with iodate turned red. Help
Replies
3
Views
2K
Reaction Rate experiment: Potassium Permanganate and Hydrogen Peroxide
Replies
3
Views
3K
Potassium sodium tartrate preparation and comparison with recipes
Replies
1
Views
2K
Perfect Espresso Water Chemistry
Replies
7
Views
4K
Order of Reactions occurring in aqueous solutions
Replies
1
Views
2K
Chloride Sulphate in "L S, B C L, S P A" ? Mnemonic?
Replies
1
Views
2K
Iodide Oxidation by Hydrogen Peroxide
Replies
4
Views
4K
Iodine Adsorption and Titration with Na2S2O3
Replies
4
Views
2K
Splashed Potassium Dichromate Solution
Replies
2
Views
2K
What Is the Molarity of Potassium Ions in a Potassium Sulfite Solution?
Replies
2
Views
4K

Hot Threads

Recent Insights

Back
Top