How to write balanced chemical reaction?

AI Thread Summary
To write a balanced chemical reaction for sodium hydrogen sulfate (NaHSO4) in water, it first dissociates completely into Na+ and HSO4- ions. The hydrogen sulfate ion (HSO4-) then partially dissociates into H3O+ and SO42- ions, which represents the second part of the reaction. The acid dissociation constant (Ka) can be calculated using the concentrations of H3O+, SO42-, and HSO4- derived from the initial moles of NaHSO4 and the pH. The concentration of HSO4- is determined by subtracting the concentration of H3O+ from the initial concentration of HSO4-, reflecting the stoichiometry of the dissociation process. Understanding these steps is crucial for calculating the acid dissociation constant accurately.
HJKL
Messages
13
Reaction score
1
Hi!
I've got this problem:
1,20 g of NaHSO4 is dissolved in water to 1,0 liters and pH=2,194. What is the acid dissociation constant for HSO-4?

I assume I have to start with writing the balanced reaction, but I don't get how I do that.
I know that I'm supposted to start with NaHSO4 + H2O , but not the rest.
 
Chemistry news on Phys.org
Solution:
NaHSO4 ---> Na+ + HSO4-
HSO4- + H2O <--> H3O+ + SO42-

Moles of NaHSO4 : 1,2g / 120 g/mol = 0.01 mol

[H3O+] = 10-2.194
[SO42- = 10-2.194
[HSO4- = 0.01 - 10-2.194

Acid dissociation constant:

ka = 10-2.194 * 10-2.194 / 0.01-102.194
ka = 1.14 * 10-2 M
 
Why do we write that first equation? And why do we get what we get in the second equation?
 
HJKL said:
Why do we write that first equation? And why do we get what we get in the second equation?
I know that I'm supposted to start with NaHSO4 + H2O ,
When the sodium hydrogen sulphate dissolves in water, it ionises and that is your first equation.
The hydrogen sulphate ion further dissociates in water giving your second equation.

The ionisation of the salt is complete in dilute solution, but the dissociation is not. It is the second part for which you are calculating the dissociation constant, so that is the equation you need.

You get what you get in that equation because that is what happens!
Sodium hydrogen sulphate is an ionic compound of Na+ and HSO4- ions, so dissociates completely in dilute aqueous solution.
The hydrogen sulphate ion is itself covalently bonded, but is enticed to lose a proton to water and dissociate to some degree. On the other hand, the sulphate ions can also accept a proton to reform hydrogen sulphate ions. You are calculating the balance between these two contrary reactions.
The sulphate ion is very stable and doesn't breakdown further in water.
 
  • Like
Likes HJKL
Ok, thanks. So when I've got my equation and I then I'm supposted to find the constant. Why do I do this:
HJKL said:
[H3O+] = 10-2.194
[SO42- = 10-2.194
[HSO4- = 0.01 - 10-2.194

I find the concentration of H3O, SO42- and HSO4-. But why is the concentration of HSO4- equal to 0.01 (moles of NaHSO4) - 10-2.194 (concentration of H3O and SO42-)?
 
Think about the dissociation stoichiometry.
 
  • Like
Likes HJKL
Thread 'How to make Sodium Chlorate by Electrolysis of salt water?'

Thread 'How to make Sodium Chlorate by Electrolysis of salt water?'

I have a power supply for electrolysis of salt water brine, variable 3v to 6v up to 30 amps. Cathode is stainless steel, anode is carbon rods. Carbon rod surface area 42" sq. the Stainless steel cathode should be 21" sq. Salt is pure 100% salt dissolved into distilled water. I have been making saturated salt wrong. Today I learn saturated salt is, dissolve pure salt into 150°f water cool to 100°f pour into the 2 gallon brine tank. I find conflicting information about brine tank...
View full post »

Thread 'Ruthenium-Iridium compound with catalytic effects'

Engineers slash iridium use in electrolyzer catalyst by 80%, boosting path to affordable green hydrogen https://news.rice.edu/news/2025/engineers-slash-iridium-use-electrolyzer-catalyst-80-boosting-path-affordable-green Ruthenium is also fairly expensive (a year ago it was about $490/ troy oz, but has nearly doubled in price over the past year, now about $910/ troy oz). I tracks prices of Pt, Pd, Ru, Ir and Ru. Of the 5 metals, rhodium (Rh) is the most expensive. A year ago, Rh and Ir...
View full post »

Similar threads

How do I find conversions for a reaction with phosphoric acid?
Replies
4
Views
2K
Storing chemicals on my balcony (storing in changing temps)
Replies
14
Views
2K
How are bubbles removed in a chemical reaction?
Replies
1
Views
2K
State of matter in chemical reaction
Replies
3
Views
2K
Chemistry How do we interpret the steps in the algorithm to balance a redox equation?
Replies
7
Views
2K
Chemical reaction leading to salt water
Replies
23
Views
7K
Balancing Reaction of Formic Acid and Ammonium Hydroxide
Replies
3
Views
8K
Why don't acids react with neutral salts in solution?
Replies
9
Views
3K
Understanding Electrochemistry: Anode and Cathode Reactions
Replies
4
Views
3K
Chemically regenerating my auto's catalytic converter?
Replies
19
Views
7K

Hot Threads

Recent Insights

Back
Top