Light speed is constan "c". I am puzzled
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From: Leon on 8 Feb 2010 14:55 Op 6-2-2010 18:06, Sanny schreef: > Until now I used to agree that Speed of light is constant = "C" As it > has been seen by experiments. <snip> > So if an electron is moving at speed "c" It is actually moving faster > than "c" "I never thought of the idea that space was the thing that was moving" -Scotty in Star Trek
From: BradGuth on 8 Feb 2010 14:55 On Feb 8, 10:24 am, Sanny <softtank...(a)hotmail.com> wrote: > > In addition to those 4.3e136 photons and counting, theres > > antimatter and the gamma thats usually associated as yet another > > whole realm of photons that (sort of speak) slip through our fingers. > > Ok tell me how many electrons/ protons and nutrons are there in this > Universe? > > Bye > Sanny > > Chat with Computer:http://www.GetClub.com/Version 2.0 Electrons and their protons are supposedly a fixed amount of mass <1.6e60 kg (I believe includes dark matter) and perhaps <1e82 atoms (not sure if that includes dark matter). So, perhaps there's <2e82 electrons, and otherwise only <5e81 protons and <5e81 neutrons. Solids should also contain their fair share of photons. Each gamma ray will produce millions of photons within the Sun, as well as within most solids and of course throughout all of the fluid and gaseous elements, including individual atoms that populate our universe. Cosmic Planck Rays (CPRs) should also be creating those gamma rays. ~ BG
From: PD on 8 Feb 2010 15:46 On Feb 6, 11:06 am, Sanny <softtank...(a)hotmail.com> wrote: > Until now I used to agree that Speed of light is constant = "C" As it > has been seen by experiments. > > But a few minutes back I got an idea. > > 1. Light is a wave. It is a sine wave with Magnetic & Electric fields > orthogonal. > > Since a Sine wave is a curve. > > The shortest distance between two points is straight line. It takes > longer if you go up and down in curves. > > Lets imagine a light wave with amplitude "x" and wavelength "w" > > Now we say light travels a distance of Wavelength "w" at speed of "C" > > But since sine wave is a curve the perimeter of movement is larger > than the wavelength. > > When we increase the frequency of light the parameter enlarges even > further as the amplitude has risen. > > So higher frequency light has to travel a longer distance. As the sine > curve is more enlongated away from center. > > So Light wave moves up and down at a speed faster than "C" > > Now we assume another case an Electron is fired at speed of "c" The > electron too travel like a wave. So electron will go up and down in > sine wave. > > So reality is speed of electron is more than "c" As the sine wave is > curved. > > I hope my analogy is understood by all. If not let me try to speak in > more detail. > > So an electron/ Light travelling at speed "c" is actually moving > faster than "c" as it goes up and down the sine curves. > > The shortest distance between two points is straight line. It takes > longer if you go up and down in curves. > > So if an electron is moving at speed "c" It is actually moving faster > than "c" > > Bye > Sanny > > Chat with Computer:http://www.GetClub.com/Version 2.0 Sanny, just because something has a strength that is sinusoidal doesn't mean that anything is moving sinusoidally. Put your hands on either side of the door jamb and push back and forth with the palms of your hands. The pressure you apply with your hands can be made to vary sinusoidally, even though neither your hands nor the door jamb are moving sinusoidally.
From: mpc755 on 8 Feb 2010 18:19 On Feb 6, 12:06 pm, Sanny <softtank...(a)hotmail.com> wrote: > Until now I used to agree that Speed of light is constant = "C" As it > has been seen by experiments. > > But a few minutes back I got an idea. > > 1. Light is a wave. It is a sine wave with Magnetic & Electric fields > orthogonal. > > Since a Sine wave is a curve. > > The shortest distance between two points is straight line. It takes > longer if you go up and down in curves. > > Lets imagine a light wave with amplitude "x" and wavelength "w" > > Now we say light travels a distance of Wavelength "w" at speed of "C" > > But since sine wave is a curve the perimeter of movement is larger > than the wavelength. > > When we increase the frequency of light the parameter enlarges even > further as the amplitude has risen. > > So higher frequency light has to travel a longer distance. As the sine > curve is more enlongated away from center. > > So Light wave moves up and down at a speed faster than "C" > > Now we assume another case an Electron is fired at speed of "c" The > electron too travel like a wave. So electron will go up and down in > sine wave. > > So reality is speed of electron is more than "c" As the sine wave is > curved. > > I hope my analogy is understood by all. If not let me try to speak in > more detail. > > So an electron/ Light travelling at speed "c" is actually moving > faster than "c" as it goes up and down the sine curves. > > The shortest distance between two points is straight line. It takes > longer if you go up and down in curves. > > So if an electron is moving at speed "c" It is actually moving faster > than "c" > > Bye > Sanny > > Chat with Computer:http://www.GetClub.com/Version 2.0 Light travels at 'c' with respect to the aether.
From: BURT on 8 Feb 2010 18:40
On Feb 8, 3:19 pm, mpc755 <mpc...(a)gmail.com> wrote: > On Feb 6, 12:06 pm, Sanny <softtank...(a)hotmail.com> wrote: > > > > > > > Until now I used to agree that Speed of light is constant = "C" As it > > has been seen by experiments. > > > But a few minutes back I got an idea. > > > 1. Light is a wave. It is a sine wave with Magnetic & Electric fields > > orthogonal. > > > Since a Sine wave is a curve. > > > The shortest distance between two points is straight line. It takes > > longer if you go up and down in curves. > > > Lets imagine a light wave with amplitude "x" and wavelength "w" > > > Now we say light travels a distance of Wavelength "w" at speed of "C" > > > But since sine wave is a curve the perimeter of movement is larger > > than the wavelength. > > > When we increase the frequency of light the parameter enlarges even > > further as the amplitude has risen. > > > So higher frequency light has to travel a longer distance. As the sine > > curve is more enlongated away from center. > > > So Light wave moves up and down at a speed faster than "C" > > > Now we assume another case an Electron is fired at speed of "c" The > > electron too travel like a wave. So electron will go up and down in > > sine wave. > > > So reality is speed of electron is more than "c" As the sine wave is > > curved. > > > I hope my analogy is understood by all. If not let me try to speak in > > more detail. > > > So an electron/ Light travelling at speed "c" is actually moving > > faster than "c" as it goes up and down the sine curves. > > > The shortest distance between two points is straight line. It takes > > longer if you go up and down in curves. > > > So if an electron is moving at speed "c" It is actually moving faster > > than "c" > > > Bye > > Sanny > > > Chat with Computer:http://www.GetClub.com/Version2.0 > > Light travels at 'c' with respect to the aether.- Hide quoted text - > > - Show quoted text - It is pushed through space at C except in a memdium when the electric field slows the push down. Then the C push is returned due to absolute flow. Mitch Raemsch |