A legend... David Attenborough...
"Here I am in the jungles of Borneo...etc." 🙂
His brother Dickie was a heck of an actor too. And producer.
In Which We Serve - YouTube
What a cast. John Mills, Celia Johnson. Noel Coward keeping a stiff upper lip. Marvellous. Carry on chaps. 😀
"Here I am in the jungles of Borneo...etc." 🙂
His brother Dickie was a heck of an actor too. And producer.
In Which We Serve - YouTube
What a cast. John Mills, Celia Johnson. Noel Coward keeping a stiff upper lip. Marvellous. Carry on chaps. 😀
I'm old enough to remember watching 'Zoo Quest' in black & white on the telly!
"The world is full of wonders, but they become more wonderful, not less wonderful, when science looks at them" - Sir David Attenborough
"The world is full of wonders, but they become more wonderful, not less wonderful, when science looks at them" - Sir David Attenborough
I get it fine in the USA. Those promos and sound effects remind me of USA station promos from two to four decades ago!
"An explosion of astrophysicists" LOL
Do you remember that US Air Force tv promo from back in about 1962? It consisted of an Air Force anthem and jets in the sky. I was 5 at the time. I loved it. I've looked for it on the net but to no avail. Another awesome one was a short commercial film promo of the Atlantic fishery. It consisted of dories as far as you could see, each with one man spear hooking huge 6-800lb tuna as they were jumping out of the water all around them. No sooner were they pulling one aboard when the next one was in the air getting speared, one after another. The men all looked like body builders. Amazing. No photo shop back then.
No. It was close up with the others progressively further to infinity. But it was being filmed, not a still. They had big spear hooks on a long staff. As soon as they pulled one aboard they would immediately spear the next, non stop. Fabulous. Those days are no more.
I brought this up already and you presented the same pic 🙂
I brought this up already and you presented the same pic 🙂
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Let's get this right.
The Large Hadron Collider has detected 210 Electrons for every 195 Muons in B-Meson decay. 😕
Pretty comfortable so far. I am quite good on Leptons:
Bit weak on Quarks, TBH. Full of Strangeness. That was a Physics joke. 😀
Particle Fever (2013) - CERN - YouTube
The Large Hadron Collider has detected 210 Electrons for every 195 Muons in B-Meson decay. 😕
Pretty comfortable so far. I am quite good on Leptons:
Bit weak on Quarks, TBH. Full of Strangeness. That was a Physics joke. 😀
Particle Fever (2013) - CERN - YouTube
That must have been in a parallel universe where I made a tuna salad and it didn't even eat it!
I'd put another fish pun in here, but I need some time to mullet over! 😀
Sorry, I tracked it down to a text conversation I had with my son a while ago.🙂
But that pic looks familiar.
But that pic looks familiar.
Time for some on-topicness:
The mystery of how big our Universe really is - BBC Future
Even a child of 10 knows this. At least this child did. The Universe is 13.8 Bn years old.
So how come the furthest edges are 46 Bn light years away? 😕
The mystery of how big our Universe really is - BBC Future
Even a child of 10 knows this. At least this child did. The Universe is 13.8 Bn years old.
So how come the furthest edges are 46 Bn light years away? 😕
46 billion light years is the radius of the observable universe. Beyond that radius, even light emitted at the Big Bang will not have had sufficient time to reach us.
The radius of the observable universe is calculated based on its rate of expansion, its current temperature and its composition - and not directly on its age. Sounds complicated and it is!
Beyond 46 billion light years the rest of the universe is unobservable. How big the whole universe is depends on its topology. If the universe curves back on itself then the universe may be at least 23 trillion light years in diameter, and contain a volume of space that's over 15 million times as large as the volume we can observe. 😱
Ask Ethan: How Large Is The Entire, Unobservable Universe?
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Nice to see folks are dialing into Ask Ethan, one of the best physics/astrophysics blogs for layman (obviously does not apply to you Galu) on the web IMV.
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I think physics must bec be the biggest subject field out there - and some people a 150 yrs ago thought we had discovered all there was to know!
I think physics must bec be the biggest subject field out there - and some people a 150 yrs ago thought we had discovered all there was to know!
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Yes, physics is the gift that just keeps on giving! 😎
On my little 'keep fit' walks around my village, I've been following the progress of the replacement of old street lighting with new LED street lamps.
Physicist Isamu Akasaki, a co-winner of the 2014 Nobel Prize in physics for inventing the world’s first efficient blue light-emitting diodes, died just a few days ago at the age of 92.
His invention contributed to the bright and energy-saving white light sources known as LED lamps.
LEDs are one of many useful spinoffs from the basic science of quantum mechanics. However, it was 32 years afer the invention of the first red LED that Isamu Akasaki developed a semiconductor material (indium gallium nitride) with a high enough energy gap to produce blue light.
How Blue LEDs Work, and Why They Deserve the Physics Nobel | NOVA | PBS
On my little 'keep fit' walks around my village, I've been following the progress of the replacement of old street lighting with new LED street lamps.
Physicist Isamu Akasaki, a co-winner of the 2014 Nobel Prize in physics for inventing the world’s first efficient blue light-emitting diodes, died just a few days ago at the age of 92.
His invention contributed to the bright and energy-saving white light sources known as LED lamps.
LEDs are one of many useful spinoffs from the basic science of quantum mechanics. However, it was 32 years afer the invention of the first red LED that Isamu Akasaki developed a semiconductor material (indium gallium nitride) with a high enough energy gap to produce blue light.
How Blue LEDs Work, and Why They Deserve the Physics Nobel | NOVA | PBS
I'd like to share Hubble's detailed and beautiful new view of the Veil Nebula that was released just a few days ago.
https://cdn.mos.cms.futurecdn.net/PzjxS4gTHGhHiauW8bzB7o.jpg
The nebula's delicate filaments of ionised gas are a result of a supernova explosion which occurred relatively close to Earth about 10,000 years ago.
https://cdn.mos.cms.futurecdn.net/PzjxS4gTHGhHiauW8bzB7o.jpg
The nebula's delicate filaments of ionised gas are a result of a supernova explosion which occurred relatively close to Earth about 10,000 years ago.
The 5th element.
Muons: '''Strong''' evidence found for a new force of nature - BBC News
Asiss, light!! Are you German? :-D
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Muons: '''Strong''' evidence found for a new force of nature - BBC News
Asiss, light!! Are you German? :-D
//
This news has made my muons go wobbly! 😀
Fermilab accelerated muons around a 14 metre ring and, when subjected to a magnetic field, they wobbled at a rate faster than predicted by the Standard Model of physics.
There's a 4.1 sigma or 1 in 40,000 chance that the results provide evidence for the existence of an undiscovered sub-atomic particle or a new fundamental force!
With these Fermilab results following on from the LHC ones we discussed earlier, it would appear that particle physics research is really hotting up at the moment.
Have the experimenters found a new force of nature that makes the muons wobble faster than expected?
Could this be associated with a new sub-atomic particle such as the hypothetical leptoquark or the Z' boson?
Watch this space! 😎
P.S. A muon is a fundamental particle similar to the electron, but with a mass 200 times greater. Muon - Wikipedia
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