Angle between the orientation of a moving object and its velocity

Ahh, you are making the same misrepresentation of my claim that AN did.
I thought that we were on the same page, you are clearly misrepresenting my claim.
What I claim is that a surface having its velocity colinear with its tangent in one frame F, has it colinear in any other (inertial) frame F' moving wrt F. Like for example the motion of the microfacets of a spinning wheel.
In discussion it is NOT the direction of surface motion wrt the observer(s) BUT the ANGLE between the surface tangent and its velocity.
I am really surprised about your above blunder, we have been discussing this subject for so long, I thought that it was very clear. Now, you come up with this nonsense?

Now, that I have answered this silly question you've been hounding me with, please answer mine.

 

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Wrong again.
You clearly don't know what I'm thinking.

Still avoiding, I see.
Address the elementary scenario I posted in the OP, then I'll consider the different scenario you designed.

A mistake.
You used:
\(\tan(\theta'_A) = \frac{|\vec{V_p}| \sin(\theta_A)}{\gamma(|\vec{V_p}| \cos(\theta_A) - v)}\)
Instead of:
\(\tan(\theta'_A) = \gamma\tan(\theta_A)\)

 

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Pauli (pg 95-96) shows that:


-the component of the motion along the normal to the mirror surface produces Doppler effect.

-mirrors moving colinear with their tangent (as in a spinning wheel) produce no Doppler effect

 

I did. See post 41. It is another one of your blunders. I can't believe that you would make such a blunder after all that we have gone through.

I know what you used, it is wrong. This is why you end up contradicting the results of the aberration formulas. So, your model is unphysical.

 

Right, that's what I said.

Call the the train frame F.
The surface (ie the ground) has its velocity colinear with its tangent.
Right?

Call the elevator frame F'
The surface (ie the ground) has its velocity perpendicular to its tangent.
Right?

It's velocity with rest

Velocity with respect to what?

It seems it's not clear at all.
You seem to be making a distinction between "the direction of surface motion wrt the observer/s" and the angle of "its velocity"surface velocity.

What do you mean?

 

What you said shows that you are not even understanding the basics of the discussion.

Wrong. The surface velocity and its tangent are still in the same plane. You are transforming two colinear vectors and you are claiming that they are no longer colinear in the boosted frame (the elevator). The vectors made a zero angle in frame F, they make a zero angle in frame F'. This is why your formalism does not recover the aberration formulas correctly.

 

Yes, this is the discussion with pete. You will not be able to prove that because you would be contradicting the formulas of light aberration (see post 4) that tell you that zero angles are frame invariant. Since the angle between the microfacets forming the circumference and their velocity is zero in the axle frame, it follows that they are also zero in all other frames in inertial motion wrt the axle. What trips people is that while the velocity is affected by the boost, so is the equation of the circumference so the colinearity is preserved.

 

I think that you are getting a false start. Did you not get the part about contradicting the relativistic aberration? How are you going to deal with this if you are using "classical" limit?

How about you do it right, rather than trying to hack it?

 

Are you referring to a tangent to the velocity, or a tangent to the surface?

In the elevator frame, the ground (or the tangent to the ground, if you prefer) is horizontal. Right?

So you say.

It looks fine to me:
A is defined by:
\(y = x \tan(\theta_A)\)
Transforming A, we find:
\(y' = \gamma\tan(\theta_A) (x' + vt')\)

The angle between A' and the x'-axis is therefore:
\(\tan(\theta'_A) = \gamma\tan(\theta_A)\)

If there's a mistake there, I'd be happy for you to point it out.

 

This is false, the aberration formula transforms zero angles into exact zero angles.

Why would I be scared about your total lack of understanding of relativistic physics?

 

Tangent to the surface. We have been talking about this for hundreds of posts.

This is where you go wrong, it is not. Go back to see how vectors transform (see the writeup I linked eralier for you):

\(r'=r+V(\frac{\gamma-1}{V^2}r.V+\gamma t)\)

\(dr'=dr+V(\frac{\gamma-1}{V^2}dr.V+\gamma dt)\)

Since the motion is transverse:

\(dr.V=0\) so

\(dr'=dr+V \gamma dt\)

\(dr'_x=\gamma V dt\)

\(dr'_y=dr_y\)

I already did, several times, starting with post 5. You insist that there isn't so we reached an impasse.

 

It would require a commitment. Yes or no, leaves no wiggle room.

 

Please try putting this in a mathematical form, so I can point out your errors.