Why Use Nitric Acid for Heavy Metal Digestion?

AI Thread Summary
The discussion focuses on the use of nitric acid for the digestion of water samples in the detection of heavy metals like copper and lead through atomic absorption spectroscopy (AAS). The original poster questions why nitric acid is preferred over other acids for this process, suggesting that the choice may depend on the specific heavy metal being analyzed. However, responses clarify that nitric acid is favored because it effectively dissolves metals without forming insoluble sulfates or volatile chlorides. Additionally, there is a correction regarding terminology, emphasizing that AAS relies on the atomization of the analyte rather than its absorption. This highlights the importance of precise language in scientific discussions.
Henokh96
Messages
5
Reaction score
0
I already done an experiment for detecting the presence of heavy metals(copper and lead) .

The last step for detection is through the absorption of analyte by atomic absorption spectroscopy.

Before that step to be done, the first process is to digest the water sample in the fume chamber.

And my question is that why on Earth are we using nitric acid for the digestion? Why not use the other types of acid?

If I am right , the reason why depends the type of heavy metal that we wanted to achieve .
Tell me if I am wrong :) tq
 
Chemistry news on Phys.org
You are wrong.
 
  • Like
Likes Henokh96
OK, more seriously - sulfates tend to be insoluble, chlorides tend to be volatile.

Watch your language. This:

Henokh96 said:
absorption of analyte by atomic absorption spectroscopy

is wrong. AAS is not based on the "absorption of analyte".
 
Borek said:
You are wrong.
Further explanation might help sir
 
Borek said:
OK, more seriously - sulfates tend to be insoluble, chlorides tend to be volatile.

Watch your language. This:
is wrong. AAS is not based on the "absorption of analyte".
Atomized analyte correct?
 
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

What Do Flame Tests Reveal About Sodium and Chloride?
Replies
6
Views
3K
Chemically regenerating my auto's catalytic converter?
Replies
19
Views
7K
Chemistry Comparing methods of computing pH at equivalence point in titration
Replies
4
Views
1K
Main reason why semiconductor is used and not a pure metal for detec
Replies
12
Views
14K
I Processes that determine the color of fire
Replies
10
Views
3K
Can Heavy Metals and High-Speed Electrons Explain X-ray Production?
Replies
3
Views
2K
A Competitor to the Drake Equation
Replies
26
Views
7K
Exploring End-Use Applications for recycled HDPE from used oil containers
Replies
2
Views
1K
Studying Why am I not doing well in physics?
Replies
16
Views
2K
I A Bold New Take on Quantum Theory
Replies
25
Views
5K

Hot Threads

Recent Insights

Back
Top