Naked Science Forum
On the Lighter Side => New Theories => Topic started by: Yahya A.Sharif on 09/08/2019 07:03:26
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In light density equation , light density is inversely proportional to squared distance d, But this doesn't happen for all valuse of d, even though light beyond its range equals zero, according to this inverse squared law light
density shouldn’t ever be zero.
The graph of 1/d² is infinte, but when chooseing some point out of light range of d on this infinite graph it gives a value for density although light didn't reach there yet.
This contradiction refers to the equation as being merely mathematical.mathematically we have infinite
numbers . physically we don’t. Beyond light density range, all values of distance r are not acceptable
For the equation to be physically as well as mathematically we have to consider that light didn’t yet
reach places in the universe, 1/d^2 can’t express this , the graph of 1/d^2 gives options to all possible
values of d to infinity which is wrong.
The graph of the equation 1/d^2 can’t be infinite , infinity is unreachable. It should have a real number
length increases and continues forever.
The idea is we have a graph let say y=x^2 it starts at y=0 and x=0, this graphs moves “ let say we are
drawing it” at particular speed, in away that we always have start “ the origin”an end or edge point for
it.
Let’s use Lorentz transformation to derive the true equation of light density .We will then have another
co-ordinate system , we put its origin at the end or edge of the graph 1/d^2, the graph 1/d^2 edge won’t
exceed the another co-ordinate system , i.e we won’t have any graph at the other co-ordinate
system.The new co-ordinate system has certain speed at which the new co-ordinate origin will always
be at the end of the graph.Here the graph is not infinte line, infinity is unreachable, it has a certain length moves and extend at specific speed and the new co-ordinate moves as well in a way the new co-ordinate origin will always
be at the end of the graph.Beyond the limit of the graph we can't calculate values since events didn't occur yet, notice the the co-ordinate systems are infinite they represent infinite space-time, however the graph represent finite events occured in this infinte space-time
In fact light density exist within its range , but beyond its range, density equals zero regardless of the
value of x2 , since that graph doesn’t actually exist and x2=0 ,y2=0,z2=0, t2=0 , there is not time
elapsed nor stance traveled, the events for light beyond its range are in the future they didn’t happen yet
The new co-ordinate system starts at the event of light emission , within light range are past event,
beyond its range are future events that didn’t happen.
We could use the transformation for speed of objects speedof an object at distance it traveled equals a
certain value, speed of this object at places it didn’t reach equals zero ,because the time elapsed in the
future equals zero “ it didn’t spend any time “ and the distance it raveled is also zero”it didn’t travel
any distance.At each moment its graph will be at the origin with respect to future time and distance , it just started
to elapse its future time.i.e t=0 and x=0
Lorentz transformation:
x=(x2+vt2)/√(1-v²/c²)
x2=0, since the graph doesn't exist at the co-ordinate system of (x2,y2,z2,t2)
t2=0 the graph doesn't exits there
Then always x=0 , .t=0 beyond the graph
since there is not time elabsed nor distance traveled density will always equal zero, t=0,x=0 speed of lght is zero , light didn't emitted the event didn't occur. then density is zero
Also density equals zero since the graph doesn't exist there.
x2=0, y2=0, z2=0, t2=0 only with respect to the graph"the graph doesn't exist"
But x2, y2, z2, t2 have values with respect to space-time
As a conclusion any graph has a specific legnth extend with specific speed according Lorentz transformation, the graph doesn't exist beyond its edge, all values of the co-ordinate system byeond graph edge will equal zero.
Light density inverse squared law is governed by this rule, the values of x,y,z,t beyond 1/d² graph all equall zero, so light speed will equal zero , light didn't emit and its density is zero.
x=0, t=0 beyond the graph an example is:
"speed of an object at distance it traveled equals a certain value, speed of this object at places it didn’t reach equals zero ,because the time elapsed in thefuture equals zero “ it didn’t spend any time “ and the distance it raveled is also zero”it didn’t travel any distance", the object at any moment could be considered to be at the origin .Future valuse of time and distance are the values of this co-oridnate system, the object is at the origin its t=0 ,x=0 they remain zero since the object didn't move yet at that moment
And this applies to all events in the universe, and it applies to gravity as well , gravity is not infinite , gravity has a limited range extendable with the speed of light c http://vixra.org/abs/1904.0013
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some point out of light range of d on this infinite graph it gives a value for density although light didn't reach there yet.
I think you are grasping for the concept of "light cones"? (...although it also applies to gravitational waves, as they also travel at c.)
Light cones describe the volume of spacetime through which your actions can have an impact.
https://en.wikipedia.org/wiki/Light_cone
In terms of the intensity of light from a source, the inverse square law assumes that all observers are stationary relative to the source, and does not account for:
1. The loss of intensity when light rises out of the galaxy's gravitational well
2. The loss (or gain) of intensity due to Doppler shift between source and observer
3. The loss of intensity due to the expansion of the universe
The Lorentz factor only accounts for a tweak on (2), when relative speeds approach a percentage of the speed of light.
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some point out of light range of d on this infinite graph it gives a value for density although light didn't reach there yet.
I think you are grasping for the concept of "light cones"? (...although it also applies to gravitational waves, as they also travel at c.)
Not really .
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even though light beyond its range equals zero,
Light does not have a "range".
It just keeps going.