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Posted

My understanding of red shift is that objects moving away from an observer take on a red shade because the photon's frequency is reduced and wavelength is increased (stretched) as it travels from the moving object towards our eye (the distance between the two grows as the photon travels at us)...And being in front, one would see a blue shift as the photon's frequency is increased (compression)...cuz the distance between the 2 objects is getting smaller as it approaches us...so expanding space would be seen with a red shift, and compressing space is seen as blue

We also see redshift in objects with massive gravity as well...in comparison to the above, gravity would also then represent an increase in the wavelength of light. And imply that objects with more gravity are moving away from us in this relative comparison of the effects of motion on space-time and the effects of gravity on space-time.

And it doesnt make much sense to me to think of gravity as a "separation" of objects...that would imply an acceleration away from two objects...but gravity seems to imply an acceleration of objects towards each other...

How does one get RED when the force of gravity would seem to imply a shrinking of space between 2 objects...and we know we see red when 2 objects are increasing the space between them? not shrinking it...

I know we do get red, but doesnt this imply that 2 objects within a common gravitational field would be seen as falling away, not together? Falling together seems to create a blue shift...

SO im stumped...

Posted (edited)

I am no expert here, but as the gravitational force of the object (in this case a photon) nears another object let's say a large planet then the photons should be travelling faster towards the planet the closer they are. In this case as an independent observer you should observe the wavelength being stretched, as although we have the planet and photon becoming increasingly closer to one another it is stretching the wavelength because it is "pulling" it in.

 

O | | | | | | | | | | | | |||||||||

 

If you take the O as a planet and | as points in our wave. Could you see how if this planet was facing directly in front of you it would cause a red shift?

Relative to that planet (I am assuming) it would cause a blue shift, but observing another planet you would see a red shift as the photons are slowed down before they exit the planets gravitational pull etc.

 

Here's a nice little article for you C:

http://einstein.stanford.edu/content/relativity/q56.html

Edited by Aminoxyl
Posted

My understanding of red shift is that objects moving away from an observer take on a red shade because the photon's frequency is reduced and wavelength is increased (stretched) as it travels from the moving object towards our eye (the distance between the two grows as the photon travels at us)...And being in front, one would see a blue shift as the photon's frequency is increased (compression)...cuz the distance between the 2 objects is getting smaller as it approaches us...so expanding space would be seen with a red shift, and compressing space is seen as blue

 

We also see redshift in objects with massive gravity as well...in comparison to the above, gravity would also then represent an increase in the wavelength of light. And imply that objects with more gravity are moving away from us in this relative comparison of the effects of motion on space-time and the effects of gravity on space-time.

 

And it doesnt make much sense to me to think of gravity as a "separation" of objects...that would imply an acceleration away from two objects...but gravity seems to imply an acceleration of objects towards each other...

 

How does one get RED when the force of gravity would seem to imply a shrinking of space between 2 objects...and we know we see red when 2 objects are increasing the space between them? not shrinking it...

 

I know we do get red, but doesnt this imply that 2 objects within a common gravitational field would be seen as falling away, not together? Falling together seems to create a blue shift...

 

SO im stumped...

You are mixing gravitational redshift with cosmological redshift. The former is created by the difference in gravitational potential, the latter is created by the increased separation between emitter and receiver (it is similar but not identical to Doppler redshift).

Posted (edited)

There is Three main forms of redshift,

 

Cosmological redshift is due to space expansion

 

Gravitational redshift is due to photons climbing into and out of gravity wells

 

Doppler redshift is due to motion

 

This article covers the three of them

 

http://cosmology101.wikidot.com/redshift-and-expansion

 

Keep in mind there are variations on the formulas for reasons such as transverse redshift etc.

 

(Transverse different angles ie object moving left to right at different angles)

Edited by Mordred
Posted (edited)

Keep in mind there are variations on the formulas for reasons such as transverse redshift etc.

 

(Transverse different angles ie object moving left to right at different angles)

 

 

"Transverse redshift" is simply a forme of Transverse Doppler Effect which, BTW can be EITHER redshift or(!) blueshift. There is an angle, called critical angle, for which there is zero shift, at the boundary between red and blueshift.

Edited by xyzt
Posted

 

 

"Transverse redshift" is simply a forme of Transverse Doppler Effect which, BTW can be EITHER redshift or(!) blueshift. There is an angle, called critical angle, for which there is zero shift, at the boundary between red and blueshift.

 

 

Yeah - understanding the transverse doppler effect is a real work-out that tests your understanding of relativity; at the point of closest point of approach of two objects light received will be blue-shifted but light emitted will be red-shifted. This was a major new testable prediction of special relativity

 

http://en.wikipedia.org/wiki/Relativistic_Doppler_effect#Transverse_Doppler_effect

Posted

 

 

"Transverse redshift" is simply a forme of Transverse Doppler Effect which, BTW can be EITHER redshift or(!) blueshift. There is an angle, called critical angle, for which there is zero shift, at the boundary between red and blueshift.

I agree it was one example of a variation I should of specified that example applies to Doppler.

 

 

I didn't want to get into corrections to the cosmological redshift as that gets too distracting to the OPs question.

Posted

There are 2 graphics on this page that are troubling me...

http://en.wikipedia.org/wiki/Relativistic_Doppler_effect#Transverse_Doppler_effect

In diagram 1 (top of page) we see red shift as I understand it...the light goes red as the grid spreads out behind an object with motion...

IN diagram 2 (right below it) we see the grid compressing behind an object with motion, but still it shifts red...

Is diagram 2 mistakenly backwards with its grid effects or is THIS the transverse effect? In either case, it seems the same example of motion to the right, with reversed grid effects...

Posted

There are 2 graphics on this page that are troubling me...

 

http://en.wikipedia.org/wiki/Relativistic_Doppler_effect#Transverse_Doppler_effect

 

In diagram 1 (top of page) we see red shift as I understand it...the light goes red as the grid spreads out behind an object with motion...

 

IN diagram 2 (right below it) we see the grid compressing behind an object with motion, but still it shifts red...

 

Is diagram 2 mistakenly backwards with its grid effects or is THIS the transverse effect? In either case, it seems the same example of motion to the right, with reversed grid effects...

 

Diagram 2 combines both Doppler shift and aberration. Aberration is the apparent change in the direction light is coming from due to the difference in the relative velocity of source and observer. It is a akin to the effect that when you are driving in rain that is falling straight down, it appears as if the rain is coming at you at an angle.

Posted

 

 

Yeah - understanding the transverse doppler effect is a real work-out that tests your understanding of relativity; at the point of closest point of approach of two objects light received will be blue-shifted but light emitted will be red-shifted. This was a major new testable prediction of special relativity

 

http://en.wikipedia.org/wiki/Relativistic_Doppler_effect#Transverse_Doppler_effect

Correct, it is the foundation of the Ives-Stilwell experiment, one of the most stringent tests of SR.

Einstein conceived it and Herbert Ives, despite of being a convinced anti-relativist, executed it.

Posted (edited)

That second image is specifically showing aberration of light see the link provided under the image.

 

http://en.m.wikipedia.org/wiki/Aberration_of_light

I see Janus best me to it

Aha...aberration is a different effect with the observer in the moving object...in my own examples, the observer was looking at light FROM the moving object...aberration seems to effect the light which the observer on the moving object sees...

 

Good call...that solves that...

 

I dont have an answer to my original question yet, but I am reading...

There is Three main forms of redshift,

 

Cosmological redshift is due to space expansion

 

Gravitational redshift is due to photons climbing into and out of gravity wells

 

Doppler redshift is due to motion

 

These red shift examples all seem to follow the same rules though...space expansion is akin to "motion away from" and both of those should be akin to whatever creates the same effect in gravity's case....

 

If gravitational redshift is created by photons "climbing" into and out of gravity wells, arent we just saying that gravity wells have the same spacetime characteristics as the space-time behind a quickly a moving object? That effect is akin to spacetime being stretched (the spacetime behind a moving object)...and they both create redshifts...

 

Alas...I am still reading...

IS it accurate to say that abberation causes the tranverse effect of shifting?

Edited by JohnSSM
Posted

Correct, it is the foundation of the Ives-Stilwell experiment, one of the most stringent tests of SR.

Einstein conceived it and Herbert Ives, despite of being a convinced anti-relativist, executed it.

 

Thanks - I never knew the story of Ives. Shows the magnificence of our scientific method - and a great deal of personal intellectual integrity - that such an experiment by a firm believer in an alternative explanation can still be used to bolster Einstein's explanation.

 

Lovely and quite sad quote from his friend H P Robertson

 

"Ives' work in the basic optical field presents a rather curious anomaly, for although he considered that it disproved the special theory of relativity, the fact is that his experimental work offers one of the most valuable supports for this theory, and his numerous theoretical investigations are quite consistent with it ... his deductions were in fact valid, but his conclusions were only superficially in contradiction with the relativity theory—their intricacy and formidable appearance were due entirely to Ives' insistence on maintaining an aether framework and mode of expression. I ... was never able to convince him that since what he had was in fact indistinguishable in its predictions from the relativity theory within the domain of physics, it was in fact the same theory...

 

http://en.wikipedia.org/wiki/Herbert_E._Ives

Posted (edited)

 

Thanks - I never knew the story of Ives. Shows the magnificence of our scientific method - and a great deal of personal intellectual integrity - that such an experiment by a firm believer in an alternative explanation can still be used to bolster Einstein's explanation.

 

Lovely and quite sad quote from his friend H P Robertson

 

 

http://en.wikipedia.org/wiki/Herbert_E._Ives

Yes, it is a fantastic story of integrity.

As an aside, we owe to H.P.Roberson the first test theory of SR. One can say that Robertson was for (the) theory (of SR) what Ives was for the experimental test. It was Ives insistence on testing SR that inspired Robertson to create the theoretical framework for the test theories of SR. To date, the Ives-Stilwell experiment is a pillar (together with MMX and KTX) of the test theories of SR. It was Robertson as well who proved that the three tests are the necessary and sufficient set.

Edited by xyzt
Posted

Yes, it is a fantastic story of integrity.

As an aside, we owe to H.P.Roberson the first test theory of SR. One can say that Robertson was for (the) theory (of SR) what Ives was for the experimental test. It was Ives insistence on testing SR that inspired Robertson to create the theoretical framework for the test theories of SR. To date, the Ives-Stilwell experiment is a pillar (together with MMX and KTX) of the test theories of SR. It was Robertson as well who proved that the three tests are the necessary and sufficient set.

I read over it as well...Ives musta been an interesting fella...

Posted

Thanks for sharing that zyxt, I'll have to study that bit of history in more detail.

It is fundamental to the contemporary state of SR.

Posted

It is fundamental to the contemporary state of SR.

Makes it even more motivating for me to study his work. Any particular article recommendations? ( no limit on technicality)

 

I've always been a firm believer in learning how our models developed historically. This includes major counter theories.

Posted

Makes it even more motivating for me to study his work. Any particular article recommendations? ( no limit on technicality)

 

I've always been a firm believer in learning how our models developed historically. This includes major counter theories.

I can do better than that, the whole story of the development of the test theories of SR is explained extremely well in this book:

 

Y.Z. Zhang, Special Relativity and its Experimental Foundations, World Scientific (1997)

Posted

Many thanks mate hard copies on order

 

http://www.amazon.com/Relativity-Experimental-Foundations-Advanced-Theoretical/dp/9810227493

Lol add that to my 20+ collection of physics related books.

 

Ps my wife always asks "Why are you so interested in this universe stuff, you will never go there"

 

My response " I'm already there"

 

After 15 years she still doesn't get it lol

Looking over some of the reviews his take on the one way vs two way influences on photons may or may not provide insight beyond what I already understand. Knowledge is always good regardless of perspective.

Posted

Many thanks mate hard copies on order

 

http://www.amazon.com/Relativity-Experimental-Foundations-Advanced-Theoretical/dp/9810227493

Lol add that to my 20+ collection of physics related books.

 

Ps my wife always asks "Why are you so interested in this universe stuff, you will never go there"

 

My response " I'm already there"

 

After 15 years she still doesn't get it lol

Looking over some of the reviews his take on the one way vs two way influences on photons may or may not provide insight beyond what I already understand. Knowledge is always good regardless of perspective.

You are welcome, it is a good book.

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