Precision and accuracy of a solution

AI Thread Summary
The discussion focuses on calculating the precision and accuracy of a diluted solution, specifically S=0.4±0.01 in a 250ml volume. Participants explore the formula F=5*S/100 to determine the resulting concentration after dilution, arriving at a value of 8*10^-5±2*10^-6. They emphasize that the relative uncertainty remains constant, but additional uncertainty may arise from inaccuracies in measuring 5ml and 100ml volumes. It is concluded that the uncertainty for all diluted solutions is approximately ±1/40, acknowledging that measurement errors can affect precision. The conversation highlights the importance of considering volumetric glassware tolerances in calculations.
cham
Messages
6
Reaction score
0

Homework Statement


so let's say that we have a solution S=0.4±0.01/250ml
i want to do a dilution
so i pick 5ml and pour it into 100ml beaker
how should i calculate precision of the solution (mathematically or with some other equations)?

Homework Equations


so basically we have F=5*S/100

The Attempt at a Solution


for me 5*S/100=8*10^-5±2*10^-6
is this true because it doesn't seem right for me (about the pricision)?
 
Last edited:
Physics news on Phys.org
The relative uncertainty stays the same, that is right.
You might get an additional uncertainty if the 5ml or the 100ml are not exact.
 
  • Like
Likes cham
so
mfb said:
The relative uncertainty stays the same, that is right.
You might get an additional uncertainty if the 5ml or the 100ml are not exact.
so what you say is that no mater how many dilution we do the precision stays the same and it depends on the solution we're using.so it means ±0.01 for all diluted solutions we made,right?
 
The relative uncertainty stays the same.
It is always 1/40. Roughly speaking, your solution might be 1/40 more concentrated than you thought, or 1/40 less. And that uncertainty does not change if your dilution factors afterwards are known exactly.
 
  • Like
Likes cham
so let's assume that final result is true , so it would be 8*10^-5 ±1/40 and so for all resulting solutions
and that by using Δy/y
correct me if I'm wrong
thanks and sorry for my stubbornness
 
I am afraid you can be sure neither 5 mL nor 100 mL are exact and they are additional sources of error.
 
  • Like
Likes cham
cham said:
so let's assume that final result is true , so it would be 8*10^-5 ±1/40 and so for all resulting solutions
No, in this case it would be 8*10-5 +- 2*10-6 as the uncertainty is 1/40 of the value.

With the caveat that the 5ml and 100ml won't be exact, as mentioned.
 
  • Like
Likes cham
thank you mfb and Borek for your help
much appreciated
 
  • #10
You can use @cham to tag users in the thread.
 
  • Like
Likes cham

Similar threads

Compare Precision & Accuracy: Speed of Light Measurements
Replies
3
Views
2K
Use math to prove which lab equipment was precise/accurate?
Replies
1
Views
2K
Finding amount of iron from absorbance
Replies
3
Views
4K
Understanding Successive Dilution in Laboratory Experiments
Replies
5
Views
2K
How to find the mass of a complex solution
Replies
6
Views
2K
Chemistry Moles of NaOH to Create Buffer Solution pH=6 in 0.42M Ethanoic Acid
Replies
3
Views
3K
Calculate Theoretical Value for Equipment Accuracy
Replies
1
Views
25K
Concentration from density and purity
Replies
3
Views
4K
Finding Concentration of a Standard Solution using % purity ?
Replies
1
Views
4K
Affect of volume on the rate of diffusion?
Replies
9
Views
3K

Hot Threads

Recent Insights

Back
Top