[b]TARGET no 1 [/b]
I would like to learn people that doppler it is not only red /blue shift !!!
Inverted Sguare Law
Doppler we can measure Red/Blue and !!! Intensity shift !!!
[b]Target no 2 [/b]
Explain by animation why we have witer and summer on the Earth ( 66.66 it is not only one reason )
[b]Target no 3 [/b]
Explain that everyone can made in home Michelson Morley but ( Intensity of signal version )
more simple explain
[b]Target no 4[/b]
explain how to measure velocity and use EM Intensity shift
[b]Target no 5[/b]
Apparent distnace shift and Gavitation forces ??
m---R---M -----> 30 km/s
m---R---M -----------------------> 220 km/s
mass m feel apparent position of the mass M
distance R is constant and not change but different velocity ( constant velocity ) and fact that M >>>m
change forces that register mass m
signal need short time for distance R ( during this time ) m and M are moving !!!
[b]Perpendicular test version[/b]
During time T light made distance "a"
how many meters during time T made rocket ?
How many sensors will register signal on opposite rocket's wall ?
Gravitation and apparent distance problem !!!
Gaallileo - below paragraph is right now in each books PHYSICS
" Galileo postulated his relativity hypothesis: any two observers moving at constant speed and direction with respect to one another will obtain the same results for all mechanical experiments (it is understood that the apparatuses they use for these experiments move with them).
This idea has a very important consequence: velocity is not absolute. This means that velocity can only be measured in reference to some object(s), and that the result of this measurment changes if we decide to measure the velocity with respect to a diferent refernce point(s). Imagine an observer traveling inside a windowless spaceship moving away from the sun at constant velocity. Galileo asserted that there are no mechanical experiments that can be made inside the rocket that will tell the occupants that the rocket is moving .
The question ``are we moving'' has no meaning unless we specify a reference frame (are we moving with respect to that star'' is meaningful). This fact, formulated in the 1600's remains very true today and is one of the cornerstones of Einstein's theories of relativity."