Q. about Bradley's Stellar Aberration

Zorba
Messages
76
Reaction score
0
I have been reading in my book on Special Relativity (A. P. French, Chapman & Hall) that stellar abberation as discovered by Bradley, only made sense to physicists at the time in the context of a wave/ether model of the propagation of light IF the Earth moved with respect to the ether.

I don't really understand why this is the case, it seems to me as though abberation would occur even if the Earth were stationary w.r.t. the ether from the wave/ether perspective... anyone can shed some light on why this is the case?

EDIT: Oh god, I just realized the horrible (unintended) pun I made at the end there, sincere apology...
 
Last edited:
Physics news on Phys.org
Have a look at the attached diagram and see if it helps.

In the first sketch the telescope and Earth is moving to the right transverse to the vertical direction of the light ray coming from the star and no aether is assumed. In the second sketch there is an aether co-moving with the Earth and the telescope and the light ray acquires a horizontal velocity component equal to the motion of the Earth and the telescope and no aberration occurs. The light ray acquires a horizontal velocity because it moves with respect to the aether medium.
 

Attachments

  • aberration.gif
    aberration.gif
    8.5 KB · Views: 604
Last edited:
Ah yes, I get it now, it seems so simple. Cheers.
 

Thread 'I don't see how a black hole's event horizon can be crossed'

OK, so this has bugged me for a while about the equivalence principle and the black hole information paradox. If black holes "evaporate" via Hawking radiation, then they cannot exist forever. So, from my external perspective, watching the person fall in, they slow down, freeze, and redshift to "nothing," but never cross the event horizon. Does the equivalence principle say my perspective is valid? If it does, is it possible that that person really never crossed the event horizon? The...
View full post »

Thread 'Synchronizing clocks in an inertial frame if light is anisotropic'

ASSUMPTIONS 1. Two identical clocks A and B in the same inertial frame are stationary relative to each other a fixed distance L apart. Time passes at the same rate for both. 2. Both clocks are able to send/receive light signals and to write/read the send/receive times into signals. 3. The speed of light is anisotropic. METHOD 1. At time t[A1] and time t[B1], clock A sends a light signal to clock B. The clock B time is unknown to A. 2. Clock B receives the signal from A at time t[B2] and...
View full post »

Thread 'Is the variation of the metric ##\delta g_{\mu\nu}## a tensor?'

From $$0 = \delta(g^{\alpha\mu}g_{\mu\nu}) = g^{\alpha\mu} \delta g_{\mu\nu} + g_{\mu\nu} \delta g^{\alpha\mu}$$ we have $$g^{\alpha\mu} \delta g_{\mu\nu} = -g_{\mu\nu} \delta g^{\alpha\mu} \,\, . $$ Multiply both sides by ##g_{\alpha\beta}## to get $$\delta g_{\beta\nu} = -g_{\alpha\beta} g_{\mu\nu} \delta g^{\alpha\mu} \qquad(*)$$ (This is Dirac's eq. (26.9) in "GTR".) On the other hand, the variation ##\delta g^{\alpha\mu} = \bar{g}^{\alpha\mu} - g^{\alpha\mu}## should be a tensor...
View full post »

Similar threads

Measurement of c using Bradley and 1905 SRT aberration models
Replies
14
Views
4K
Stellar aberration and Fresnel ether drag
Replies
3
Views
5K
Aberration of a Particle: Solving for Angle and Velocity in Relativistic Frames
Replies
2
Views
2K
B Is Time's Flow Affected by Cosmic and Quantum Scales?
Replies
6
Views
2K
Constancy of light? Why the fuss?
Replies
1
Views
3K
Singularities, dark matter, and dark energy. A connection?
Replies
4
Views
7K
I What Key Issues Should Cosmologists Address in the ΛCDM Model?
Replies
1
Views
3K
PF Fan Fiction: Mathematicians in Love
Replies
2
Views
4K
Mathematica This Week's Finds in Mathematical Physics (Week 247)
Replies
1
Views
4K

Hot Threads

Recent Insights

Back
Top