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don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.sorry laundry mat, I highlighted it for you. but go fking figure where you went.Cosmic Background Radiation - Engineering and Technology History WikiI know it was cooled, I know they had to be in the middle of bumfk egypt. And yes, I have seen their radio antenna.
BTW, when I have no cell service on my phone, are the waves really there and the phone just is saying nope ain't letting those in? too funny.
I know it was cooled,
They cooled the entire antenna? Are you sure?
I know they had to be in the middle of bumfk Egypt
New Jersey.
And yes, I have seen their radio antenna.
It's gigantic, how'd they cool it?
"The CMB was discovered and measured in 1965 by radio astronomers Arno Penzias and Robert Wilson, who had been studying the “sky temperature.” Sky temperature describes the level of noise at different radio frequencies. It is required in the planning of satellite and other wireless communication systems because it enters receiving antennas along with communication signals. The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."
The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground,
This doesn't say the antenna was cooled. Were you lying?
Or are you ignorant of how an antenna works?
, and helium-cooled terminations to minimize the noise level of the measurement system.
You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.sorry laundry mat, I highlighted it for you. but go fking figure where you went.Cosmic Background Radiation - Engineering and Technology History WikiI know it was cooled,
They cooled the entire antenna? Are you sure?
I know they had to be in the middle of bumfk Egypt
New Jersey.
And yes, I have seen their radio antenna.
It's gigantic, how'd they cool it?
"The CMB was discovered and measured in 1965 by radio astronomers Arno Penzias and Robert Wilson, who had been studying the “sky temperature.” Sky temperature describes the level of noise at different radio frequencies. It is required in the planning of satellite and other wireless communication systems because it enters receiving antennas along with communication signals. The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."
The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground,
This doesn't say the antenna was cooled. Were you lying?
Or are you ignorant of how an antenna works?
, and helium-cooled terminations to minimize the noise level of the measurement system.
You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
"The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.sorry laundry mat, I highlighted it for you. but go fking figure where you went.Cosmic Background Radiation - Engineering and Technology History Wiki
"The CMB was discovered and measured in 1965 by radio astronomers Arno Penzias and Robert Wilson, who had been studying the “sky temperature.” Sky temperature describes the level of noise at different radio frequencies. It is required in the planning of satellite and other wireless communication systems because it enters receiving antennas along with communication signals. The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."
The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground,
This doesn't say the antenna was cooled. Were you lying?
Or are you ignorant of how an antenna works?
, and helium-cooled terminations to minimize the noise level of the measurement system.
You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
"The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.sorry laundry mat, I highlighted it for you. but go fking figure where you went.The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground,
This doesn't say the antenna was cooled. Were you lying?
Or are you ignorant of how an antenna works?
, and helium-cooled terminations to minimize the noise level of the measurement system.
You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read."The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.sorry laundry mat, I highlighted it for you. but go fking figure where you went.
, and helium-cooled terminations to minimize the noise level of the measurement system.
You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
Still think the enormous antenna was cooled?
not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read."The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.You're confused about the difference between an antenna and a measurement system? Hilarious!
Which part is the antenna?
don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
Still think the enormous antenna was cooled?
you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read."The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me. but hey, you're that guy. the guy that does his laundry on an internet. wash rinse repeat fella.
don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
Still think the enormous antenna was cooled?
not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
Nope. Violates QM. You have given no reason why a photon is prohibited a certain direction. Thus they are your smart photons.The energy is just obeying the laws of physics....it is funny that you feel that it must be intelligent in order to do so...
Maybe you didn't hear...the second law of thermodynamics is a physical law...there has never been an observed deviation from its statement...QM is still theoretical, and hypothetical...maybe someday, physical laws will come out of it...but not today...
so you don't believe in the physical law of the 2nd law of thermodynamics? warm only moves to cold. ONLY ONE WAY.Maybe you didn't hear...the second law of thermodynamics is a physical law...there has never been an observed deviation from its statement...QM is still theoretical, and hypothetical...maybe someday, physical laws will come out of it...but not today...
Well if you don't believe QM which has been around for 100 years, you are hopelessly behind the times. Entropy says nothing can prevent equilibrium radiation exchange. Many say radiation can hit sources at any temperature. No violation was ever found.
Maybe you didn't hear...the second law of thermodynamics is a physical law...there has never been an observed deviation from its statement...QM is still theoretical, and hypothetical...maybe someday, physical laws will come out of it...but not today...
Well if you don't believe QM which has been around for 100 years, you are hopelessly behind the times. Entropy says nothing can prevent equilibrium radiation exchange. Many say radiation can hit sources at any temperature. No violation was ever found.
We gave you many examples of radiation moving from a cold source to warmer objects.Like I said...I will wait for the observed, measured evidence....
And since no measurement of energy moving spontaneously from cool to warm has ever been made, your claim is bullshit.
sureeeeee you did.We gave you many examples of radiation moving from a cold source to warmer objects.Like I said...I will wait for the observed, measured evidence....
And since no measurement of energy moving spontaneously from cool to warm has ever been made, your claim is bullshit.
you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read."The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."don't insult me.
Don't avoid the question .
Is it the big horn on the right, or the small shed on the left?
Still think the enormous antenna was cooled?
not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read."The measurement system devised by Penzias and Wilson consisted of antennas designed to minimize the radiation picked up from the ground, a traveling-wave maser amplifier, and helium-cooled terminations to minimize the noise level of the measurement system."
Still think the enormous antenna was cooled?
not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read.Still think the enormous antenna was cooled?
not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled. i give two shits anything beyond that. without that, they read zip.dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though. Said so in the write up I posted. again, you don't read.
not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled
Dude, is the receiver in the big horn or in the little shed?
dude, the receiver is cooled. i give two shits anything beyond that. without that, they read zip.dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.not that one, nope. the receiver terminations were though
Excellent!
Said so in the write up I posted. again, you don't read.
But I do read. I read this....
Todd "Obviously, if you can't measure photons hitting your sensor....it's because cold photons are repelled"
JC "it means they aren't there"
LWIR FAILS to Warm the Atmosphere by Empirical Experiment.
How did the photons that "aren't there" manage to hit the uncooled antenna?
you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled
Dude, is the receiver in the big horn or in the little shed?
you have no idea where the noise came from on the cooled receiver. Cause it was cooled!!!! it's ok dude. I get your confusion.dude, the receiver is cooled. i give two shits anything beyond that. without that, they read zip.dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you? you know that the receiver termination cooled received a signal. that's all.
you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled
Dude, is the receiver in the big horn or in the little shed?
dude, the receiver is cooled.
And the antenna is warm.
Don't tell SSDD you've realized his error.
you have no idea where the noise came from on the cooled receiver. Cause it was cooled!!!! it's ok dude. I get your confusion.dude, the receiver is cooled. i give two shits anything beyond that. without that, they read zip.dude, the receiver is cooled. there is no other reason to cool it but to pull wavelengths that are cooler than a receiver termination at ambient temperature. without cooling it, you wouldn't see anything. sorry, that's just a fact.you don't know that they did, now do you?
I don't know that the photons hit the warm antenna?
I'll refer back to my earlier questions,
Were you lying?
Or are you ignorant of how an antenna works?
dude, the receiver is cooled
Dude, is the receiver in the big horn or in the little shed?
dude, the receiver is cooled.
And the antenna is warm.
Don't tell SSDD you've realized his error.
