How to quantify the discrepancy between two observational results with errors?

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Yun-He Li
Posts: 2
Joined: March 16 2012
Affiliation: Northeast University of China

How to quantify the discrepancy between two observational re

Post by Yun-He Li » June 18 2014

When reading the original papers from Planck Collaboration, I am always confused by the sentence like that ''this measument ([tex]H_0=73.8\pm2.4[/tex] km/s/Mpc) is discrepant with the planck estimate ([tex]H_0=67.3\pm1.2[/tex] km/s/Mpc) at about the 2.5[tex]\sigma[/tex].''

Here, how is the value of 2.5[tex]\sigma[/tex] calculated?

I have tried many ways to get this result, but none of them satisfies me. Can anybody enlighten me?

Antony Lewis
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Joined: September 23 2004
Affiliation: University of Sussex
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Re: How to quantify the discrepancy between two observationa

Post by Antony Lewis » June 19 2014

If you have two independent measurements of H, H1 and H2, with Gaussian errors, then you'd expect mean(H1-H2)=0, with variance \sigma^2=\sigma_{H1}^2 + \sigma_{H2}^2. In this case |H1-H2| ~ 6.5, \sigma^2~2.68, and hence |H1-H2| ~ 2.4 sigma.

Yun-He Li
Posts: 2
Joined: March 16 2012
Affiliation: Northeast University of China

Re: How to quantify the discrepancy between two observationa

Post by Yun-He Li » June 20 2014

Antony Lewis wrote:If you have two independent measurements of H, H1 and H2, with Gaussian errors, then you'd expect mean(H1-H2)=0, with variance \sigma^2=\sigma_{H1}^2 + \sigma_{H2}^2. In this case |H1-H2| ~ 6.5, \sigma^2~2.68, and hence |H1-H2| ~ 2.4 sigma.
Although this approach give a slightly different value, it is definitely a scientific approach. Now I can decide which way to use. Thanks a lot!

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