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AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
Hi:
Please don't be annoyed/offended by my question. I have a very weird question about electromagnetic radiation, carriers, and modulators. Is it mathematically-possible to carry a modulator signal with a frequency of 10^1,000,000,000-to-the-power-10^1,000,000,000 gigacycles every 10^-(1,000,000,000-to-the-power-10^1,000,000,000) nanosecond and an amplitude of 1-watt-per-meter-squared on a AM carrier signal whose frequency is 10^-(1,000,000,000-to-the-power-10^1,000,000,000) nanocycle* every 10^1,000,000,000-to-the-power-10^1,000,000,000 giga- eons and whose amplitude is a minimum of 10^1,000,000,000-to-the- power-10^1,000,000,000 gigaphotons per 10^-(1,000,000,000-to-the- power-10^1,000,000,000) nanosecond? If it is not mathematically-possible, then please explain why. 10^-(1,000,000,000-to-the-power-10^1,000,000,000) second is an extremely short amount of time. 10^-(1,000,000,000-to-the- power-10^1,000,000,000) nanosecond is even shorter because a nanosecond is shorter than a second. 10^1,000,000,000-to-the-power-10^1,000,000,000 cycles is an extremely large amount of cycles. 10^1,000,000,000-to-the-power-10^1,000,000,000 gigacycles is even more because a gigacycle is more than a cycle. Giga-eon = a billion eons Eon = a billion years Gigacycle = a billion cycles. *nanocycle = billionth of a cycle Gigaphoton = a billion photons 10^1,000,000,000-to-the-power-10^1,000,000,000 -- now that is one large large number. 10^1,000,000,000 = 10-to-the-power-1,000,000,000 So you get: (10-to-the-power-1,000,000,000) to the power (10-to-the- power-1,000,000,000) 10^-(1,000,000,000-to-the-power-10^1,000,000,000) = 10^-(10-to-the- power-1,000,000,000)-to-the-power-(10-to-the-power-1,000,000,000) 10^-(10-to-the-power-1,000,000,000) to the power (10-to-the- power-1,000,000,000) is an extremely small number at it equals 10-to- the-power-NEGATIVE-[(10-to-the-power-1,000,000,000) to the power (10- to-the-power-1,000,000,000)] No offense but please respond with reasonable answers & keep out the jokes, off-topic nonsense, taunts, insults, and trivializations. I am really interested in this. Thanks, Radium |
AM electromagnetic waves: astronomically-high modulation frequencyon an astronomically-low carrier frequency
Radium wrote:
... Thanks, Radium ROFLOL!!! JS |
AM electromagnetic waves: astronomically-high modulation frequencyon an astronomically-low carrier frequency
Radium wrote: Hi: Please don't be annoyed/offended by my question. Why not ? You're a trolling IDIOT. Graham |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
On Jun 27, 9:38 pm, Radium wrote:
Hi: Please don't be annoyed/offended by my question. I have a very weird question about electromagnetic radiation, carriers, and modulators. Is it mathematically-possible to carry a modulator signal with a frequency of 10^1,000,000,000-to-the-power-10^1,000,000,000 gigacycles every 10^-(1,000,000,000-to-the-power-10^1,000,000,000) nanosecond and an amplitude of 1-watt-per-meter-squared on a AM carrier signal whose frequency is 10^-(1,000,000,000-to-the-power-10^1,000,000,000) nanocycle* every 10^1,000,000,000-to-the-power-10^1,000,000,000 giga- eons and whose amplitude is a minimum of 10^1,000,000,000-to-the- power-10^1,000,000,000 gigaphotons per 10^-(1,000,000,000-to-the- power-10^1,000,000,000) nanosecond? If it is not mathematically-possible, then please explain why. 10^-(1,000,000,000-to-the-power-10^1,000,000,000) second is an extremely short amount of time. 10^-(1,000,000,000-to-the- power-10^1,000,000,000) nanosecond is even shorter because a nanosecond is shorter than a second. 10^1,000,000,000-to-the-power-10^1,000,000,000 cycles is an extremely large amount of cycles. 10^1,000,000,000-to-the-power-10^1,000,000,000 gigacycles is even more because a gigacycle is more than a cycle. Giga-eon = a billion eons Eon = a billion years Gigacycle = a billion cycles. *nanocycle = billionth of a cycle Gigaphoton = a billion photons 10^1,000,000,000-to-the-power-10^1,000,000,000 -- now that is one large large number. 10^1,000,000,000 = 10-to-the-power-1,000,000,000 So you get: (10-to-the-power-1,000,000,000) to the power (10-to-the- power-1,000,000,000) 10^-(1,000,000,000-to-the-power-10^1,000,000,000) = 10^-(10-to-the- power-1,000,000,000)-to-the-power-(10-to-the-power-1,000,000,000) 10^-(10-to-the-power-1,000,000,000) to the power (10-to-the- power-1,000,000,000) is an extremely small number at it equals 10-to- the-power-NEGATIVE-[(10-to-the-power-1,000,000,000) to the power (10- to-the-power-1,000,000,000)] No offense but please respond with reasonable answers & keep out the jokes, off-topic nonsense, taunts, insults, and trivializations. I am really interested in this. Thanks, Radium |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
On Jun 27, 9:43 pm, John Smith I wrote:
Radium wrote: ... Thanks, Radium ROFLOL!!! JS |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
On Jun 27, 9:59 pm, Eeyore
wrote: Radium wrote: Hi: Please don't be annoyed/offended by my question. Why not ? You're a trolling IDIOT. Graham |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
Radium hath wroth:
Please don't be annoyed/offended by my question. Why? Would you expect facts to change if I were annoyed or offended? If it is not mathematically-possible, then please explain why. Oh, that's easy. The worlds supply of zeros, nulls, and comma separators is strictly limited. The galactic supply of such things were created by the big bang and are not being made any more. If you consume a substantial number of zeros, the zeros must be borrowed from somewhere. While it is mathematically possible to bury the reader in zeros, it is ecologically incorrect to do so. Also, be advised that the government budget and trade deficits have cornered the supply of zeros, and may soon approach an astronomical accumulation of zeros. At the present rate of zero depletion, you may soon be forced to use large exponentials, in order to avoid consuming zeros. No offense Would defense be acceptable? but please respond with reasonable answers & keep out the jokes, off-topic nonsense, taunts, insults, and trivializations. I am really interested in this. There are about 10^80 particles in the universe. Do with them as you please but do save the zeros for those that need them. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
On Jun 27, 11:44 pm, Jeff Liebermann wrote:
Radium hath wroth: Please don't be annoyed/offended by my question. Why? Would you expect facts to change if I were annoyed or offended? If it is not mathematically-possible, then please explain why. Oh, that's easy. The worlds supply of zeros, nulls, and comma separators is strictly limited. The galactic supply of such things were created by the big bang and are not being made any more. If you consume a substantial number of zeros, the zeros must be borrowed from somewhere. While it is mathematically possible to bury the reader in zeros, it is ecologically incorrect to do so. Also, be advised that the government budget and trade deficits have cornered the supply of zeros, and may soon approach an astronomical accumulation of zeros. At the present rate of zero depletion, you may soon be forced to use large exponentials, in order to avoid consuming zeros. No offense Would defense be acceptable? but please respond with reasonable answers & keep out the jokes, off-topic nonsense, taunts, insults, and trivializations. I am really interested in this. There are about 10^80 particles in the universe. Do with them as you please but do save the zeros for those that need them. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
AM electromagnetic waves: astronomically-high modulation frequencyon an astronomically-low carrier frequency
Jeff Liebermann wrote:
There are about 10^80 particles in the universe. Do with them as you please but do save the zeros for those that need them. an a-null-ment is in order. mike |
AM electromagnetic waves: astronomically-high modulation frequency on an astronomically-low carrier frequency
On Jun 28, 12:15 am, m II wrote:
Jeff Liebermann wrote: There are about 10^80 particles in the universe. Do with them as you please but do save the zeros for those that need them. an a-null-ment is in order. mike |
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