Saturday, January 16, 2021
Friday, January 15, 2021
EXCITING TRAIN JOURNEYS : LAPLAND EXPRESS - AMAZING EXPERIENCE TO THE ARCTIC
VR LAPLAND EXPRESS –
AN AMAZING FINNISH EXPERIENCE TO
THE ARCTIC CIRCLE BY TRAIN
872,344 views
•May 22, 2020
56.8K subscribers
SUBSCRIBED
EUROPEAN TRAIN TRIP #15 Hi
everyone, welcome back to the following step of my European train trip Today we
are going to Kemi, in the Lapland onboard the famous VR sleeper train. 🇫🇮
A nice Facebook page for European trains https://www.facebook.com/groups/12959...
Please check and subscribe to this
nice channel :) : https://www.youtube.com/channel/UCBqW... - TRIP INFORMATION - Railway
company: VR Train type : SR 1 From : Helsinki to Kemi N° of train: 273 Duration
: 9h35 Price : Around 60 euros with a discount - SOCIAL MEDIA - https://www.instagram.com/simply_rail...
- EQUIPMENT - iPhone Xs / DJI
mobile go 2
Grateful thanks to SIMPLY
RAILWAY
and YouTube and all the others who made this video possible
SCIENCE WATCH : PLASTIC EATING ENZYME
SCIENTISTS ACCIDENTALLY DISCOVERED A PLASTIC EATING ENZYME THAT COULD REVOLUTIONIZE RECYCLING (HBO)
124,482 views
•May 13, 2018
5.95M subscribers
SUBSCRIBED
An international team of scientists
have accidentally enhanced a plastic eating enzyme in a discovery that could
change our relationship with plastic forever. The breakthrough, if scaled up,
could lead to plastic being broken down into its original components and formed
into plastic items again, removing the need for making more of the material.
With over 1 million plastic bottles sold a minute and at the current rate
plastic set to outweigh fish in the oceans by 2050, plastic pollution is an
environmental menace that has been dubbed a 'planetary crisis' by the United
Nations. Despite the huge challenge, PROFESSOR JOHN MCGEEHAN who headed the
research believes the findings could turn the tide, "I think there's been
a huge amount of doom and gloom stories around plastics and justifiably because
it's a terrible environmental scourge. But this is a story where we've got some
hope that we can actually put together." The research was based on a 2016
discovery in a waste facility in Japan of a bacterium that had evolved to eat
plastic. During the teams attempt to understand the how the enzyme evolved they
made alterations which inadvertently led to the enzyme eating plastic 20%
faster than before. VICE News travels to the seaside city of Portsmouth in the
UK to meet the man behind the discovery and what it might mean for a world
being poisoned by plastic. Subscribe to VICE News here: http://bit.ly/Subscribe-to-VICE-News
Check out VICE News for more: http://vicenews.com
Follow VICE News here: Facebook: https://www.facebook.com/vicenews
Twitter: https://twitter.com/vicenews
Tumblr: http://vicenews.tumblr.com/
Instagram: http://instagram.com/vicenews
More videos from the VICE network: https://www.fb.com/vicevideo
Grateful thanks to PROFESSOR JOHN
MCGEEHAN, VICE News and YouTube and all the others who made this video possible
Q&A : DOES TIME EXIST ? - ANDREW ZIMMERMAN JONES
DOES TIME EXIST? - ANDREW ZIMMERMAN JONES
4,399,447 views
•Oct 23, 2018
13.1M subscribers
SUBSCRIBED
Download a free audiobook version
of "A Brief History of Time" and support TED-Ed's nonprofit mission: https://adbl.co/2NWYjAh
Check out our full book
recommendation: https://shop.ed.ted.com/collections/t...
View full lesson: https://ed.ted.com/lessons/does-time-...
The earliest time measurements were
observations of cycles of the natural world, using patterns of changes from day
to night and season to season to build calendars. More precise time-keeping
eventually came along to put time in more convenient boxes. But what exactly
are we measuring? Andrew Zimmerman Jones contemplates whether time is something
that physically exists or is just in our heads. Lesson by Andrew Zimmerman
Jones, directed by Nice Shoes. Thank you so much to our patrons for your
support! Without you this video would not be possible! Chung Wah Gnapp, Andrew
Sprott, Jane White, Ayan Doss, BRENDAN NEALE, Lawrence Teh Swee Kiang, Alex
Pierce, Nick Cozby, Jeffrey Segrest, Anthony Arcis, Ugur Doga Sezgin, Kathryn
Vacha, Allyson Martin, Srinivasa C Pasumarthi, å¼ æ™“é›¨,
Ann Marie Reus, Nishant Suneja, Javier Lara Rosado, Jerry Yang, Shubham Arora,
Sebastian Regez, Danielle Downs, Clovis Norroy, Liz Candee, Vinh-Thuy Nguyen,
Amy Lopez, SANG HAN, Aries SW, Sebastiaan Hols, Grimes Gregory, João Henrique
Rodrigues, Michael Lucke, Annastasshia Ames, Claudia Hernandez Chavarria,
Livia-Alexandra Sarban, Lee, Karthik Balsubramanian, Mathew Samuel, Turine
Tran, Ido brown, Jordan Tang, Christopher Jimenez, Juan, Tracey Tobkin, Sid,
emily lam, Kathryn J Hammond, Elliot Poulin, Noel Situ and Latora Slydell.
Grateful thanks to ANDREW ZIMMERMAN
JONES, TED-Ed and YouTube and all the others who
made this video possible
LOOKING BACK : THE BREAKUP OF YUGOSLAVIA EXPLAINED
THE
BREAKUP OF YUGOSLAVIA EXPLAINED
269,683 views
•Aug 23, 2020
170K subscribers
SUBSCRIBED
The Breakup of Yugoslavia. The
poll: https://www.youtube.com/post/UgwTlVb3... Patreon: https://www.patreon.com/Historyscope
Social Media Discord: https://discord.gg/6FhkySE
Reddit: https://www.reddit.com/r/HistoryScope/
Twitter: https://twitter.com/ScopeHistory
Instagram: https://www.instagram.com/officialhis...
Facebook: https://www.facebook.com/averythingch...
My music playlist while animating: https://www.youtube.com/playlist?list... SOURCES: - https://www.britannica.com/place/King...
- https://www.britannica.com/place/Yugo...
- http://www.yuhistorija.com/doc/LP%20-...
- https://www.infoplease.com/history/wo...
(very short and simple timeline of
events) - http://data.un.org/Data.aspx?q=gdp+pe...
- https://doc-research.org/2018/03/rise...
[BEST ONE] - https://www.imf.org/external/np/loi/2...
[HAS LOTS OF DETAILED FIGURES] - https://www.icty.org
- https://www.imf.org/external/np/loi/2...
Grateful thanks to HISTORY
SCOPE and
YouTube and all the others who made this video possible
AMAZING FACTS : JAPANESE RAILWAY
74 views
•Oct 15, 2020
24 subscribers
Grateful thanks to OVU
VIDEOS and
YouTube and all the others who made this video possible
FUTUROLOGY : THE WORLD IN 2030 - DR. MICHIO KAKU
"THE WORLD IN 2030" BY DR. MICHIO KAKU
6,151,160 views
•Dec 15, 2009
32.2K subscribers
SUBSCRIBED
"The World in 2030: How
Science will Affect Computers, Medicine, Jobs, Our Lifestyles and the Wealth of
our Nations" Wednesday, October 28, 2009 Dr. Michio Kaku is a theoretical
physicist and the Henry Semat Professor at the City College of New York and the
Graduate Center of the City University of New York, where he has taught for
more than 30 years. He is a graduate of Harvard University in Cambridge,
Massachusetts, and earned his doctorate from the University of California at
Berkeley. Dr. Kaku is one of the founders of string field theory, a field of
research within string theory. String theory seeks to provide a unified
description for all matter and the fundamental forces of the universe. His book
The Physics of the Impossible addresses how science fiction technology may
become possible in the future. His other books include Hyperspace: A Scientific
Odyssey Through Parallel Universes, Time Warps, and the Tenth Dimension ,
selected as one of the best science books of 1994 by both the New York Times
and The Washington Post, and Parallel Worlds: A Journey Through Creation,
Higher Dimensions, and the Future of the Cosmos , a finalist for the Samuel
Johnson Prize.
Grateful thanks to DR.
MICHIO KAKU, CUNYQueensborough and YouTube and all the others who
made this video possible
ENVIRONMENT : HOW A FARMER TURNED 90 ACRES OF WASTELAND INTO A LUSH GREEN FOREST
HOW A FARMER TURNED 90 ACRES OF WASTELAND INTO
A LUSH GREEN FOREST IN ODISHA
1,099,721 views
•Dec 17, 2018
240K subscribers
SUBSCRIBED
#Forest #Organicfarming #Climateresilient In 1988, SABARMATEE AND HER FATHER
RADHAMOHAN bought an acre of degraded land in Nayagarh district of Odisha. They
wanted to set up an experiment to see if a forest using organic techniques.
Organic farming was not widespread in India at that time, therefore they had to
rely on trial and error. But over time their efforts succeeded and after nearly
three decades their one acre has grown to 90 acres and with a lush forest
cover. In 1989 the duo registered a NGO called Sambhav, which would work on
organic farming and ecological conservation. Within their forest is also a 2.5
acre plot which is used for seed preservation. Over the year they have managed
to collect, grow and preserve nearly 800 varieties of traditional seeds. More
than half of these seeds are of paddy that can grow under different climatic
systems and under different stress levels. Some of their seed can tolerate
water logging and heavy rain while the other varieties can tolerate drought.
There are also certain varieties that are highly nutritious. Sabarmatee's
efforts have built up an important repository of seeds that can help alleviate
the effects of climate change. When Odisha was hit by cyclonic storms in 2013
and 2014, 34 varieties of rice managed to withstand the damage.
Grateful thanks to DOWN
TO EARTH,
SABARMATEE AND HER FATHER RADHAMOHAN and YouTube and all the others who made
this video possible
TECH WATCH : FIVE NEW BATTERY TECHNOLOGIES THAT COULD CHANGE EVERYTHING
FIVE NEW BATTERY TECHNOLOGIES THAT
1,415,029 views
•Sep 27, 2020
124K subscribers
SUBSCRIBED
Batteries are everywhere in today’s
hyperconnected electrically propelled society. Sign up https://brilliant.org/ElectricFuture/
First 200 people get 20% off annual
premium subscription. Thanks to Brilliant for sponsoring this video! What if
your electric car could travel 1000 miles on a single charge, charge in 10
minutes, and last for 1 million miles? Today just about every electric car uses
lithium ion batteries. They’re pretty good, but ultimately are heavy and have
long charging times for the amount of energy they can store. According to Elon
Musk, battery modules are the main limiting factor in electric vehicle life. In
2019 he said the Tesla Model 3 drive unit is rated for 1 million miles, but the
battery isn’t as long lasting. To handle the predicted demand explosion for
electric vehicles over the coming decades, we’ll need to create a breakthrough
battery that is cheaper, longer lasting, more durable, and more efficient. We
must also address the issues of political and environmental sustainability to
ensure batteries remain tenable in an increasingly electric future. Over 80% of
world’s lithium deposits are found in China, and current technology also relies
heavily on cobalt, an element mostly found in the Democratic Republic of Congo.
After Tesla’s recent battery day, where Elon Musk announced a larger, tabless
4680 battery cell with improved energy density, greater ease of manufacturing,
and lower cost. The world’s attention is now more focused on batteries than
ever before, but Tesla isn’t the only show in town. Lithium air batteries.
Metal air batteries have been around for a while. You might find a little zinc
air button cell in a hearing aid, for example, but scaled up aluminum and
lithium air chemistries are also promising for the automotive and aerospace
industries. The potential for lightweight batteries with high energy storage
makes this battery technology promising. Lithium air batteries could have a
maximum theoretical specific energy of 3,460 W h/kg , almost 10 times more than
lithium ion. NASA researchers have also been investigating lithium air
batteries for use in aircraft. This technology still has a long way to go before
your take your next business trip is in an electric plane. Nanotech Batteries.
Nanotechnology has been a buzzword for several decades, but is now finding
applications in everything from nanoelectronics to biomedical engineering, and
body armor to extra-slippery clothing irons. Nanomaterials make use of
particles and structures 1-100 nanometers in size, essentially one size up from
the molecular scale. Carbon nanostructures also show great promise. Graphene is
one of the most exciting of these. Amprius go one stage further with their
anodes of ‘100% silicon nanowire’. The maker claims that they can achieve 500
Wh/kg which is in the range suitable for enabling electric aircraft in
partnership with Airbus. Nanomaterial research is promising Lithium sulphur batteries
are one emerging technology that can offer greatly improved energy densities
compared to lithium-ion. The theoretical maximum specific energy of this
chemistry is 2,567 Wh/kg compared to lithium ion’s 350 Wh/kg maximum. Solid
state electrolytes. A common theme in emerging technologies so far has been
researchers’ desire to develop solid state electrolytes. These would replace
flammable organic liquids with stable, crystalline or glassy-state solids, or
polymer-base. It is hoped that using these solid electrolytes would enable the
use of metallic lithium electrodes to provide higher output voltages and allow
for increased energy density. Panasonic have also been looking into solid state
electrolytes. It is notable that Tesla have been partnered with Panasonic in
their existing lithium-ion manufacturing capacity, but it is Toyota who have
publicly announced their collaboration with Panasonic to develop next
generation solid state batteries. Samsung too are working on solid state
batteries. Dual carbon batteries. Two carbon electrodes and a non-toxic
electrolyte with the ability to extract more power than from conventional
lithium ion, and their ability to charge 20 times faster, and these lithium-ion
variants could be the future for electric vehicles. Better batteries are also
important for the advancement of stationary storage from renewable energy
sources such as solar power. Tesla is also making headway into this sector,
with products like the powerwall home battery, and powerpack commercial energy
storage products. The technologies discussed in this video could have huge
implications on different battery powered transportation options besides just
electric cars. Imagine the potential in everything from electric bikes to
electric scooters and electric boats to electric airplanes. Consumer
electronics also stand to experience vast improvements in battery life in
devices such as smart phones, laptops, cameras, and more. The future is
electric!
Grateful thanks to Electric
Future and
YouTube and all the others who made this video possible