Join B1 and B2 in a compilation of full length animated episodes including all of your favourite friends - the Teddies and Rat-in-a hat. Let's go bananas!

The Missing Muffins - When Morgan's yummy, freshly baked muffins suddenly disappear, everyone blames Pedro. It's well-known that the naughty pig can't resist food, so when Pedro swears he is innocent, only the Bananas believe him. But if Pedro didn't take the muffins, who did?

Bad Luck Morgan - After a series of innocent accidents, Morgan starts to believe he's a bad luck bear. The Bananas try to make him think his luck has changed.

The Mystery Noise - B1 and B2 go in search of the source of a loud noise that wakes them from their sleep. Eventually the Bananas are lead to Camembert's barn. But now they've found the source of the noise keeping them awake, how do they stop it?

The Sleepy Snitcher - The Bananas stake out the kitchen and in walks a thief - it's Morgan, but he is sleepwalking! In the morning the Bananas go round to tell the Teddies, who are all shocked - especially Morgan. How can they stop him sleepwalking and save their fruit?

Never miss a Bananas Episode - click here to subscribe https://www.youtube.com/channe....l/UCug61OHMkz5GgJkey

Bananas in Pyjamas Theme Song : https://youtu.be/6hPsXh5k0d8

Welcome to the Official Bananas in Pyjamas Channel.
On this channel you will find classic and animated full episodes.

Your favourite clips and compilations and much more! Tune in every week and see the antics of B1, B2 and their many friends.

#Bananas #BananasinPyjamas #BananasinPyjamasEnglish
☆ Never miss a Bananas Episode - click here to subscribe https://www.youtube.com/channe....l/UCug61OHMkz5GgJkey

☆ Bananas in Pyjamas Theme Song : https://youtu.be/6hPsXh5k0d8

Welcome to the Official Bananas in Pyjamas Channel.
On this channel you will find classic and animated full episodes.

Your favourite clips and compilations and much more! Tune in every week and see the antics of B1, B2 and their many friends.

Amy is sitting in the garden reading a book on Dinosaurs. A sheet is hanging on the washing line when Amy looks up she thinks she has seen a shadow of a real Dinosaur. She runs inside to tell Lulu and Morgan and they all decide to try and catch the Dinosaur. When the shadow appears again all the Teddies scream and this brings the Bananas out from behind the sheet - it was the Bananas all the time. The rest of the afternoon is spent making shadow animals with their hands.

Never miss a Bananas Episode - click here to subscribe https://www.youtube.com/channe....l/UCug61OHMkz5GgJkey

Bananas in Pyjamas Theme Song : https://youtu.be/6hPsXh5k0d8

Welcome to the Official Bananas in Pyjamas Channel.
On this channel you will find classic and animated full episodes.

Your favourite clips and compilations and much more! Tune in every week and see the antics of B1, B2 and their many friends.

From Episode 6 - Fluffy Bunny

B1, B2 and their adorable friends the Teddies and the ever mischievous Rat in a Hat romp their way through the magical world of Cuddletown. There are new friends to meet too; Topsy the kangaroo, Charlie the inventive monkey and Bernard the wise old dog.

The strongest force in the universe is the strong nuclear force and it governs the behavior of quarks and gluons inside protons and neutrons.  The name of the theory that governs this force is quantum chromodynamics, or QCD.  In this video, Fermilab’s Dr. Don Lincoln explains the intricacies of this dominant component of the Standard Model.

Related videos:
http://www.youtube.com/watch?v=c3nGE8Z3-lo
http://www.youtube.com/watch?v=FBeALt3rxEA
http://www.youtube.com/watch?v=hk1cOffTgdk
http://www.youtube.com/watch?v=TYTQm7t3I38
http://www.youtube.com/watch?v=hHTWBc14-mk

The inability of scientists to create a theory of quantum gravity arises from long-standing tensions between general relativity and quantum mechanics. There have been few approaches with any success. In this video, Fermilab’s Dr. Don Lincoln explains one of the few promising ideas, called loop quantum gravity.

Further reading:
http://www.einstein-online.inf....o/spotlights/spin_ne

Quantum Gravity: https://www.youtube.com/watch?v=CbPWYjnQIO8

Full Quantum series: https://www.youtube.com/playli....st?list=PLCfRa7MXBEs

The Higgs boson was discovered in July of 2012 and is generally understood to be the origin of mass. While those statements are true, they are incomplete. It turns out that the Higgs boson is responsible for only about 2% of the mass of ordinary matter. In this dramatic new video, Fermilab’s Dr. Don Lincoln tells us the rest of the story.

The Higgs boson burst into the public arena on July 4, 2012, when scientists working at the CERN laboratory announced the particle’s discovery. However the initial discovery was a bit tentative, with the need to verify that the discovered particle was, indeed, the Higgs boson. In this video, Fermilab’s Dr. Don Lincoln looks at the data from the perspective of 2016 and shows that more recent analyses further supports the idea that the Higgs boson is what was discovered.

The data presented in this video can be seen in a technical form in this paper: http://cds.cern.ch/record/2158....863/files/jhep-08-04 Figure 19 is a more accurate version.

The Standard Model of particle physics is composed of several theories that are added together.  The most precise component theory is the theory of quantum electrodynamics or QED.  In this video, Fermilab’s Dr. Don Lincoln explains how theoretical QED calculations can be done.  This video links to other videos, giving the viewer a deep understanding of the process.

Related videos:
http://www.youtube.com/watch?v=TYTQm7t3I38
http://www.youtube.com/watch?v=hk1cOffTgdk

Carl Sagan's oft-quoted statement that there are "billions and billions" of stars in the cosmos gives an idea of just how much "stuff" is in the universe. However scientists now think that in addition to the type of matter with which we are familiar, there is another kind of matter out there. This new kind of matter is called "dark matter" and there seems to be five times as much as ordinary matter. Dark matter interacts only with gravity, thus light simply zips right by it. Scientists are searching through their data, trying to prove that the dark matter idea is real. Fermilab's Dr. Don Lincoln tells us why we think this seemingly-crazy idea might not be so crazy after all.

The idea of electric charges and electricity in general is a familiar one to the science savvy viewer. However, electromagnetism is but one of the four fundamental forces and not the strongest one. The strongest of the fundamental forces is called the strong nuclear force and it has its own associated charge. Physicists call this charge “color” in analogy with the primary colors, although there is no real connection with actual color. In this video, Fermilab’s Dr. Don Lincoln explains why it is that we live in a colorful world.

In a long line of intellectual triumphs, Einstein’s theory of general relativity was his greatest and most imaginative.  It tells us that what we experience as gravity can be most accurately described as the bending of space itself.  This idea leads to consequences, including gravitational lensing, which is caused by light traveling in this curved space.  This is works in a way analogous to a lens (and hence the name).  In this video, Fermilab’s Dr. Don Lincoln explains a little general relativity, a little gravitational lensing, and tells us how this phenomenon allows us to map out the matter of the entire universe, including the otherwise-invisible dark matter.

Related video:
http://www.youtube.com/watch?v=oPNrcKeqbBM

The 6,800-acre Fermilab site is home to a chain of particle accelerators that provide particle beams to numerous experiments and R&D programs. This 2-minute animation explains how the proton source provides the particles that get accelerated and travel through the accelerator complex at close to the speed of light. Scientists use these beams to generate protons, neutrons, muons, pions and neutrinos for various research areas across the Fermilab site. More than 4,000 scientists from over 50 countries use Fermilab and its particle accelerators, detectors and computers for their research. More information is at http://www.fnal.gov/pub/science/ .

Music bensound.com

Relativity has many mind-bending consequences, but one of the weirdest is the idea that objects in motion get shorter. Bizarre or not, Fermilab’s Dr. Don Lincoln explains just how it works. You’ll be a believer.

One of the most difficult things in learning particle physics for the first time is to understand all of the various names. There are dozens and dozens and sometimes many names can apply to one particle or a single name can apply to many particles. It’s all very confusing. Luckily, Fermilab’s Dr. Don Lincoln made this video to help you sort it all out.

Particle flow chart:
http://www.drdiagram.com/wp-co....ntent/uploads/2017/0

Particle names Venn diagram:
https://imgur.com/a/BY3SQqQ

Most particle physics research is publicly funded, so it is fair that society asks if this is a good use of taxpayers’ money. In this video, Fermilab’s Dr. Don Lincoln explains how this research attempts to answer questions that have bothered humanity since time immemorial. And, for those with a more practical bent, he explains how this research is an excellent investment with a high rate of return for society.

In this 45-minute presentation Alex Himmel, Wilson Fellow at Fermi National Accelerator Laboratory, explains how neutrinos might provide the answers to many questions that scientists have about the universe. The neutrino is a type of subatomic particle. They are produced in copious quantities by celestial objects -- trillions of neutrinos from the sun will pass through your body while you read this sentence -- but they interact so rarely with other particles that only a handful will strike an atom in your body during your entire life. Yet these benign little particles can tell us about some of the most energetic processes in the universe. In order to detect these elusive particles, scientists build enormous particle detectors deep underground, using tanks full of liquid argon in an old gold mine as well as a cubic kilometer of Antarctic ice. In this talk Himmel works his way from the sun to galactic supernovae to the possible extragalactic sources of the highest-energy neutrinos ever observed. Himmel also answers audience questions from members of the Naperville Astronomical Association.

This 2-minute animation shows a virtual walk through the large caverns of the Long-Baseline Neutrino Facility, which will house the Deep Underground Neutrino Experiment. To create the caverns for the huge DUNE particle detectors, construction crews will excavate more than 800,000 tons of rock a mile underground at the Sanford Underground Research Facility in South Dakota. Scientists and dignitaries broke ground for this project on July 21, 2017. When construction is complete, DUNE scientists will send an intense neutrino beam through 1,300 kilometers of rock from the Department of Energy’s Fermilab to the DUNE particle detectors to understand the role that neutrinos – the most abundant matter particles in the universe – play in our cosmos. About 1,000 scientists from more than 160 institutions in 30 countries work on the Deep Underground Neutrino Experiment. More info is at http://dunescience.org

After a long water journey, a large crowd gathers to watch the muon-g-2 ring being placed onto the Emmert transporter for its journey to Fermilab.

A time-lapse of the Fermilab muon g-2 ring being installed and prepped, from June 27, 2014 to June 5, 2015.