Page 22

Note:

N o v e m b e r 2 1 - 2 2 , 2 0 1 8 | M a d r i d , S p a i n

OF EXCELLENCE

IN INTERNATIONAL

MEETINGS

alliedacademies.com

YEARS

Analytical Chemistry 2018

Journal of Chemical Technology and Applications

|

Volume 2

ANALYTICAL CHEMISTRY

International Conference on

Robert J Buenker, J Chem Tech App 2018, Volume 2

THE LORENTZ TRANSFORMATION AND THE

TRANSVERSE DOPPLER EFFECT

Robert J Buenker

Bergische Universität Wuppertal, Germany

A

ccording to the Δy=Δy’ equation of the Lorentz transformation (LT) of

the special theory of relativity (STR), the value of any distance interval

measured on a moving object that is oriented transverse to the velocity of

that object should be independent of its relative speed to the observer. It is

known from experiments with the transverse Doppler effect, however, that

the wavelength of light emitted from a moving source

increases uniformly in

all directions

with its speed relative to the observer. When one combines the

Δy=Δy’ axiom from STR with the above experimental finding, the unavoidable

conclusion is that the

in situ

value of the wavelength must also vary with the

state of motion of the light source. Otherwise, it is impossible to explain how

the laboratory observer could find that the wavelength of the light from the

accelerated source changes even when it is measured in a direction which is

transverse to its velocity relative to this source. Experimental measurements

indicate that this is not the case, however: the

in situ

value of the wavelength

of light from a given source is always the same, regardless of the latter’s state

of motion. The Relativity Principle (RP) on which STR is based also leads

to this conclusion. The only way to reconcile theory with experiment under

these circumstances is to

reject the Δy=Δy’

claim of STR. Instead, one must

assume

that the lengths of objects increase upon acceleration in the same

proportion as the rates of clocks slow down

, independent of their orientation

to the direction of relative motion to the observer.

Robert J Buenker was working at Fachbereich C-Math-

ematik und Naturwissenschaften, Bergische Universität

Wuppertal, Gaussstr. 20, D-42097 Wuppertal, Germany.

Robert research interest includes Lorentz transforma-

tion, astrophysics, and relativity principle. Robert is an

honorary author for Journal of Astrophysics and Aero-

space Technology. Robert has authored of several re-

search articles like GPS-Compatible Lorentz transforma-

tion that satisfies the relativity principle.

rjbuenker@gmail.com

BIOGRAPHY