Infinite vs. instant
in [Relativity]
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From: GogoJF on 25 May 2010 09:47 When it comes to light, what is the difference? Isn't it two different buzz words to describe a single phenomenon?
From: BURT on 25 May 2010 15:55 On May 25, 6:47 am, GogoJF <jfgog...(a)yahoo.com> wrote: > When it comes to light, what is the difference? Isn't it two > different buzz words to describe a single phenomenon? Time takes place in instants. Detail goes down to the infinitely small. In the Continuum Hypothesis there are sizes of infinity comprized of the the infinitely small defining all finite quantities. Mitch Raemsch
From: GogoJF on 25 May 2010 23:04 On May 25, 2:55 pm, BURT <macromi...(a)yahoo.com> wrote: > On May 25, 6:47 am, GogoJF <jfgog...(a)yahoo.com> wrote: > > > When it comes to light, what is the difference? Isn't it two > > different buzz words to describe a single phenomenon? > > Time takes place in instants. Detail goes down to the infinitely > small. In the Continuum Hypothesis there are sizes of infinity > comprized of the the infinitely small defining all finite quantities. > > Mitch Raemsch Burt, we are inside an envelope. We do not know how large this envelope is, but we are certain that it will be dealt with by the class of 2100. One may say that this type of response is inadequate- or that a plan had to be made.
From: BURT on 25 May 2010 23:10 On May 25, 8:04 pm, GogoJF <jfgog...(a)yahoo.com> wrote: > On May 25, 2:55 pm, BURT <macromi...(a)yahoo.com> wrote: > > > On May 25, 6:47 am, GogoJF <jfgog...(a)yahoo.com> wrote: > > > > When it comes to light, what is the difference? Isn't it two > > > different buzz words to describe a single phenomenon? > > > Time takes place in instants. Detail goes down to the infinitely > > small. In the Continuum Hypothesis there are sizes of infinity > > comprized of the the infinitely small defining all finite quantities. > > > Mitch Raemsch > > Burt, we are inside an envelope. We do not know how large this > envelope is, but we are certain that it will be dealt with by the > class of 2100. One may say that this type of response is inadequate- > or that a plan had to be made. Light waves are how big when they are emitted? Does a light wave appear across space all at once or does it have to grow to size as a local object? Mitch Raemsch
From: Y.Porat on 27 May 2010 10:12
On May 25, 6:41 pm, PD <thedraperfam...(a)gmail.com> wrote: > On May 25, 9:45 am, GogoJF <jfgog...(a)yahoo.com> wrote: > > > On May 25, 9:42 am, Sam Wormley <sworml...(a)gmail.com> wrote: > > > > On 5/25/10 9:19 AM, GogoJF wrote: > > > > > When it comes to light, what is the difference? Isn't it two > > > > different buzz words to describe a single phenomenon? > > > > When you look at the moon you see it as it was about 1.3 second > > > ago. Sun - About 8 minutes. Vega, when you look at Vega, you are > > > seeing it as it was more than 25 years ago. > > > Aw man, your living in the past. This question restated: what is the > > difference between instant and infinite when it comes to light, when > > dealing with physics? > > Light has infinite range, which means that there is not a range from > the source that the light will never cross. > > However, the time it takes to get to any given range is nonzero. > Therefore it is not instantaneous transmission. ------------------- it is not created * instantaneously* as well !! (:-) !! noting in our universe is done 'instantaneously' !! TO DO** ANYTHING** IS A SYNONYM OF TIME TAKING !!! and there are issues of which it is very important to know how long it was done !!! (:-) the shortest time to do anything seems to be not less than the Planck time !!!........!! and it is apparently belongs to photon creation .... ATB Y.Porat ------------------------ Y.Porat ---------------------------- |