MHB Problems with propagation of error

AI Thread Summary
The discussion focuses on the challenges of error propagation in equations involving various mathematical operations. Participants emphasize the importance of neglecting constant values when deriving error propagation formulas. A specific example is provided, illustrating how to calculate the relative error using the formula for a function of multiple variables. Additionally, there are clarifications regarding the use of square roots and the handling of negative signs in equations. Overall, the conversation aims to guide the original poster in correctly applying error propagation techniques.
bobey
Messages
29
Reaction score
0

Attachments

  • 1.jpg
    1.jpg
    8.8 KB · Views: 82
  • 2.jpg
    2.jpg
    16 KB · Views: 86
  • 3.jpg
    3.jpg
    13.6 KB · Views: 96
  • 4.jpg
    4.jpg
    18.5 KB · Views: 89
Mathematics news on Phys.org
bobey said:
I have problem regarding the propagation of error since the equations involving mixtures of multiplication, division, addition, subtraction, and powers. Please help me to clarify whether my attempts are right or wrong.

https://www.physicsforums.com/attachments/333https://www.physicsforums.com/attachments/334
https://www.physicsforums.com/attachments/332View attachment 331

Hi bobey, :)

I think you should review how to calculate the propagation of errors. One of the basic things that you should remember is to neglect the constant values of the formulas when deriving the error propagation formula. For example take your Question 1.

\[D=-\frac{L}{4m}\]

Now, the error propagation formula would be,

\[\frac{\Delta D}{D}=\sqrt{\left(\frac{\Delta L}{L}\right)^2+\left(\frac{\Delta m}{m}\right)^2}\]

Even if you have the formula, \(\displaystyle D=\frac{L}{m}\) you get the same error propagation formula above. The constant \(-\frac{1}{4}\) have no significance.

Read http://www.fas.harvard.edu/~scphys/nsta/error_propagation.pdf and this to find out how to derive the error propagation for any given formula.

Kind Regards,
Sudharaka.
 
Last edited:
Sudharaka said:
Hi bobey, :)

I think you should review how to calculate the propagation of errors. One of the basic things that you should remember is to neglect the constant values of the formulas when deriving the error propagation formula. For example take your Question 1.

\[D=-\frac{L}{4m}\]

Now, the error propagation formula would be,

\[\frac{\Delta D}{D}=\sqrt{\frac{\Delta L}{L}+\frac{\Delta m}{m}}\]

I would check this if I were you.

CB
 
Problems with propagation of error for multiple variables

please help by telling me whether my approach to solve the problems are right or wrong. please refer to the ATTACHMENT for the questions and my approaches...

your help is highly appreciated!

question 1
View attachment 336
question 2
View attachment 337
 

Attachments

  • 1.0.jpg
    1.0.jpg
    11.2 KB · Views: 78
  • 2.0.jpg
    2.0.jpg
    14.6 KB · Views: 83
Re: Problems with propagation of error for multiple variables

bobey said:
please help by telling me whether my approach to solve the problems are right or wrong. please refer to the ATTACHMENT for the questions and my approaches...

your help is highly appreciated!

question 1
View attachment 336

For this one you should not need the square and square root, they cancel, and anyway you only use a root sum of squares composition of errors when there is more than one variable involved.

CB
 
Re: Problems with propagation of error for multiple variables

bobey said:
please help by telling me whether my approach to solve the problems are right or wrong. please refer to the ATTACHMENT for the questions and my approaches...

your help is highly appreciated!

question 1
View attachment 336
question 2
View attachment 337

For the second the same comment as for the first, otherwise OK (except you should transfer the minus sign attached to the 2 to the whole expression.

CB
 

Thread 'Non-orthogonal bases'

Suppose ,instead of the usual x,y coordinate system with an I basis vector along the x -axis and a corresponding j basis vector along the y-axis we instead have a different pair of basis vectors ,call them e and f along their respective axes. I have seen that this is an important subject in maths My question is what physical applications does such a model apply to? I am asking here because I have devoted quite a lot of time in the past to understanding convectors and the dual...
View full post »

Thread 'What Exactly is Dirac’s Delta Function? - Insight'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. In Dirac’s Principles of Quantum Mechanics published in 1930 he introduced a “convenient notation” he referred to as a “delta function” which he treated as a continuum analog to the discrete Kronecker delta. The Kronecker delta is simply the indexed components of the identity operator in matrix algebra Source: https://www.physicsforums.com/insights/what-exactly-is-diracs-delta-function/ by...
View full post »

Similar threads

I Error propagation of exponentials
Replies
2
Views
2K
Error propagation when using modulus operator
Replies
5
Views
2K
How can I calculate the uncertainty of the mean with Gaussian error propagation?
Replies
15
Views
914
I Label propagation equation: what are the terms?
Replies
3
Views
1K
Sig figs/certainty in percent error calculation
Replies
8
Views
5K
Combining Multiple Rules for Error Propagation
Replies
3
Views
2K
I Propagation of Errors, Ohm's Law
Replies
6
Views
4K
MHB Margin of error and point estimate together
Replies
1
Views
2K
Propagation of Error for Sodium Doublet Lines
Replies
2
Views
1K
Understanding Error Propagation in Averaging Measurements
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top