Dazzling sky show over (USA) Pacific Northwest tonight was @SpaceX rocket booster falling out of orbit – #Falcon9 pic.twitter.com/SX9Aary7F6
— UFO Community (@UFOcommunity) March 26, 2021
A piece of SpaceX rocket debris lands at Washington state farm, authorities say. https://t.co/3vHH7aZ8WD
— ABC News (@ABC) April 4, 2021
Many people in Oregon were left stunned Thursday night as they spotted what looked like a large meteor breaking apart in the sky.
While it hasn't been confirmed what the object was, the National Weather Service believes it might be debris from a rocket.https://t.co/nh9brAa4N3 pic.twitter.com/DKYwaQV7Fd— FOX26 News (@KMPHFOX26) March 26, 2021
Debris From Falcon 9 Rocket Lights Up Sky Over Pacific Northwest https://t.co/5p33qVyV7R
— NBC 7 San Diego (@nbcsandiego) March 26, 2021
— KU Physics and Astronomy (@KUPhysicsAstro) March 18, 2021
Liftoff! pic.twitter.com/V3vn9PolF0
— SpaceX (@SpaceX) March 14, 2021
20/ …that can measure the dust particle-scale transport physics while the vehicle is landing. We just did test flights of the sensor on a Masten rocket last November. pic.twitter.com/kJgnqQfDU8
— Dr. Phil Metzger (@DrPhiltill) March 25, 2021
https://t.co/gyYj7TXuYZ 9 minutes to go #Artemis #hotfiretest #NASA
— UEA Physics (@UEAPhysics) March 18, 2021
Why does a curveball curve? It has less to do with the speed, and more with the spin. On this day in #PhysicsHistory, physicist Lyman Briggs used a wind tunnel to study the science behind the curveball. https://t.co/1dXBLdA9ow
— APS Physics (@APSphysics) March 29, 2019
a simple bouncing ball loader built with some fun clip-path transitions and some dubious physicshttps://t.co/SLXGvtD7Xu pic.twitter.com/XmruELy87X
— Adam Kuhn (@cobra_winfrey) October 8, 2018
Einstein thought it impossible: a ball rolling uphill! This experiment shows that a ball can actually defy #gravity. —via What the Physics
For more physics resources, check out the NOVA collection on PBS Learning Media: https://t.co/Sa0lHgnRGphttps://t.co/U1FiTc3S6u
— NOVA Education (@NOVAeducation) March 20, 2021
Physics Gif Friday: spinning a ball as its dropped causes its path to curve outwards — known as the Magnus effect pic.twitter.com/AXX4UwFNNm
— Institute of Physics (@PhysicsNews) May 6, 2016
A feather and bowling ball falling in vacuum. #worldofengineering #science #physics #scientist #themoreyouknow #learneveryday
Credit to @BBCTwo pic.twitter.com/dVJmegSAfA— World of Engineering (@engineers_feed) June 9, 2019
Dynamic difficulty is not in the game please explain this green timed shot. one of multiple ridiculous saves pic.twitter.com/euufSlDlp7
— The King (@king__Teet) June 28, 2019
Great session with @HKA_Tanalski, here’s a 55 @ColumbusFtball @cchsballcoach @CColumbuspride @larryblustein @OKC_kicking @damehova9 @4thDownU @CoachJeffGarner @PrepRedzoneFL @SAProfileCard @SFHSSports @BigFaceSportss @_EliteProspects @bleechr @200702048 @TheCribSouthFLA @CCNNLive pic.twitter.com/2NeFqBYLLD
— Luis Palenzuela (@LCPalenzuela22) March 26, 2021
This throw is not supposed to look easy ⏰ pic.twitter.com/MEMMCU6UEr
— Kansas City Chiefs (@Chiefs) August 19, 2020
https://twitter.com/NFLUK/status/1375417445398192135
https://twitter.com/tennisscotland/status/1245283812508086272
A cart moving at constant velocity shoots a ball straight upwards, which is caught when it comes back down: this demonstrates the independence of motion along the x and y axes https://t.co/z2hMjnPv3c pic.twitter.com/mwi5fIY4n6
— Massimo (@Rainmaker1973) July 14, 2019
Under certain conditions this can lead to a self-induced oscillation: pic.twitter.com/w4ZNdluzE0
— Simon Michalke (@ClundXIII) May 30, 2020
Today is #WorldWaterDay – here's a reminder of how chemistry helps get water from reservoirs to our homes: https://t.co/koqh9DTTKM pic.twitter.com/mx7bWrBVKw
— Compound Interest (@compoundchem) March 22, 2021
Looking for something to watch on #WorldWaterDay? Check out this list of Reactions videos covering a wide variety of topics related to the chemistry of water. https://t.co/xJe2NM7kCv pic.twitter.com/PXIdpgiWRk
— American Chemical Society (@AmerChemSociety) March 22, 2021
Low-cost sensor checks drinking water for arsenic contamination. https://t.co/xP3BVqopsM
— Physics World (@PhysicsWorld) March 29, 2021
Engineered Nanoparticles Change Shape in Soil and Groundwater https://t.co/GKAwMi02Ju by Sam Lohse
— SustainableNano (@SustainableNano) March 22, 2021
Groundwater, surface-water, and water-chemistry data, Black Mesa area, northeastern Arizona—2016–2018, https://t.co/BplqhIJrM9 pic.twitter.com/66WP7pmsEY
— USGS Pubs Warehouse (@USGS_Pubs) March 26, 2021
https://twitter.com/ImranSZN/status/1376453084335968256
For around $150, plexiglass, water, lenses, and ordinary mirrors, professor of Physics at the University of Rochester John Howell built an uni-directional optical cloaking device: This video shows one of the devices and two of his sons… sometimes: https://t.co/H1NPb6Aes2 pic.twitter.com/wf7FbzdKg6
— Massimo (@Rainmaker1973) March 24, 2021
https://twitter.com/jamesisfine/status/1374481696041537540
Trippiest example of water refraction pic.twitter.com/V7UxrAs5lz
— Physics-astronomy (@Physicsastrono9) March 27, 2021
https://twitter.com/ShahoolR/status/1374413895075467272
https://twitter.com/ScienceVideos_/status/1375731959649869824
https://twitter.com/ScienceVideos_/status/1375740622645039105
A little chemistry fun as students watched sodium react with water. #STEM pic.twitter.com/2sXRyu1HCX
— VillaMadonnaAcademy (@VillaMadonna) March 23, 2021
Ocean and bay acidification is connected to industrial CO2 emissions. By adding a liquid pH solution to the bay water students can watch the chemistry and acidic reactions taking place when CO2 is added to the bay water. The color change happens as carbonic acid forms. pic.twitter.com/nUBIbKms6f
— VBCPS Environmental Studies Program (@VBEnvStudies) March 24, 2021
https://twitter.com/natsabin/status/1374140917481869312
Green hydrogen is produced using renewable energy to power large electrolyzers, which split water into oxygen and hydrogen. While the process is energy-intensive, it can be carbon free. pic.twitter.com/XNI3v7aQSD
— Reuters (@Reuters) June 26, 2020
This integrated farming system could be a game-changer for the way we grow food pic.twitter.com/WTgCFco97J
— Universal Curiosity (@UniverCurious) March 27, 2021
.#Greenhydrogen is produced by electrolysis, in which machines split water into #hydrogen & #oxygen without any by-products. Meanwhile, energy companies are also starting to integrate electrolysers directly into #renewableenergy projects. @sciam #betd2020 https://t.co/ViJMsLrgZC
— Greensofa (@greensofa_betd) November 11, 2020
.@ENERGY's #fuecell fact of the month: global sales of electrolyzers – which use electricity to split water into #hydrogen & oxygen – reached 100 MW in 2017! That's enough to produce 50,000 kg of hydrogen per day – powering a lot of fuel cell vehicles! https://t.co/II7jog9otO pic.twitter.com/zWGFHC71BK
— FCHEA (@FCHEA_News) August 17, 2018
A research team from @UDChBE developed a new method to simultaneously capture #carbondioxide directly from the air and thermochemically split water into hydrogen and oxygen molecules using thermal energy. @PNASNews https://t.co/ZISyfv8R2x
— UD Engineering (@UDengineering) December 21, 2019
Heating a house with green #hydrogen—which uses #renewables to power electrolysers that split water into hydrogen and oxygen—would require five times more electricity than doing so with a heat pump, says @janrosenow of @RegAssistProj https://t.co/Ldu0gQNNP3 pic.twitter.com/ygUqphYAxv
— FORESIGHT Climate & Energy (@FORESIGHTdk) January 16, 2021
Using sunlight to split water into hydrogen and oxygen is a green way to make non-fossil fuel, but the catalysts for the reaction are typically not very efficient. Researchers @UTokyo_News_en & @ShinshuUni proved that better photocatalysts are possible. https://t.co/xnyj7PrF0L
— Physics World (@PhysicsWorld) July 6, 2020
Researchers at Shinshu University’s Tsuyoshi Takata, Takashi Hisatomi & Kazunari Domen succeeded in creating a #Photocatalyst that can Split Water into #Hydrogen & oxygen at a Quantum Efficiency Close to 100%–https://t.co/ChPJ10E8mx #HydrogenNow #decarbonise #zeroemissions #H2
— FuelCellsWorks (@fuelcellsworks) December 25, 2020
As the planet warms the warmer air, which holds more moisture, will lead to more evaporation & precipitation.
If these processes are increasing, it is evidence for an intensifying water cycle. But no one had really shown that trend quantitively. Until now. https://t.co/MYEE64KJbx— RD UG4PH (@DRajesh_UG4PH) July 26, 2019
https://twitter.com/NASA_Technology/status/1351967487223623680
Scientists Just Showed It's Possible to Split Water Into Hydrogen And Oxygen in Space https://t.co/lO7Qbiqgcl
— ScienceAlert (@ScienceAlert) July 15, 2018
Most systems to split water into its components—hydrogen & oxygen—require two catalysts, one to spur a reaction & other to produce oxygen.The new catalyst, made of iron and dinickel phosphides on commercially available nickel foam, performs both functionshttps://t.co/Ad8JbW8Hgj
— Ministry of Petroleum and Natural Gas (@PetroleumMin) July 1, 2018
Promising new material has the right properties to capture solar #energy, split #water into hydrogen and oxygen @AIP_Publishing https://t.co/6J1fCLVEc3
— Phys.org (@physorg_com) June 18, 2018
Tetrahedra may explain #water's uniqueness @PNASNews https://t.co/5GY95U3XRX
— Phys.org (@physorg_com) October 12, 2020
New versions of electrolyzers—devices that split water into oxygen and hydrogen gas—could one day join solar cells and windmills as a key player in powering the globe through renewable energy. https://t.co/UrZxIanO74
— News from Science (@NewsfromScience) March 16, 2020
Saudi Arabia is going big on green hydrogen—a carbon-free fuel made from water by using renewably produced electricity to split hydrogen molecules from oxygen molecules. The country plans to use it to power the new futuristic city they’re constructing.https://t.co/syQ10XEsAt
— Yale Environment 360 (@YaleE360) November 6, 2020
https://twitter.com/UCBerkeley/status/1073277614494752768
In a step forward for renewable energy storage, researchers in Harvard’s Department of Chemistry and Chemical Biology have accomplished the continuous splitting of impure water into pure hydrogen and oxygen gas by a process called forward osmosis. https://t.co/qVp1n7oOSM
— The Harvard Crimson (@thecrimson) March 26, 2021
ICYMI: @ucsc and @ucmerced have been collaborating on a novel idea to address the drought and global warming- solar canals. Listen to postdoc researcher Brandi McKuin’s interview on @kcrw about this important project: https://t.co/mVHp91tzxd
— UCSC Institute for Social Transformation (@UCSCtransform) March 30, 2021
A new analysis finds that covering water canals in California with solar panels could solve two crises at once – reduce evaporation and generate renewable energy. Via @WIRED https://t.co/AM9DgH6oov
— High Country News (@highcountrynews) March 28, 2021
"It's cold, so global warming is fake!"
Nope. Climate change is actually contributing to cold, snowy weather in Indiana. Here's how: https://t.co/mgSfXrndNi
— Allison Carter (@AllisonLCarter) January 16, 2019
Green #Hydrogen, produced by using #RenewableEnergy to split water molecules into hydrogen & oxygen, is expected to play a vital role in #energytransition. The world will see its first commercial use in the Netherlands at the end of 2024. https://t.co/ebfuNp4mny
— IRENA (@IRENA) March 23, 2020
Covering canals with solar panels helps the panels to operate more efficiently — and the shade helps to keep the canals’ water from being lost to evaporation. https://t.co/OujLKqKjWL
— Nature (@nature) April 1, 2021
My old mucker from 'Op' Iceberg' #AlunHubbard , now at @UiTromso has just co-authored a paper which directly links obs' of reduced winter sea-ice & enhanced open-water evaporation across the Barents Sea to extreme snowfall during the 'Beast from the East' https://t.co/3h8tKPnnRd
— Chris Packham (@ChrisGPackham) April 3, 2021
https://twitter.com/EU_ScienceHub/status/1252155926095761410
⚡️To get hydrogen, an electric current is run through water to split the oxygen and hydrogen atoms apart.
That takes energy, which really ought to be green https://t.co/7FJBKonTZ0 pic.twitter.com/3TkicUi1nX
— Bloomberg Opinion (@bopinion) November 22, 2020
Some of the companies that make machines that can split water into hydrogen and oxygen are having a stellar year https://t.co/82RwcZdSBv
— Bloomberg (@business) May 28, 2020
Learn more about Abu Dhabi's innovative plan to turn the desert green. Sponsored by ADIO.
— Bloomberg (@business) February 16, 2021
We're Berkeley Lab. We're NOT UC Berkeley and we're NOT Lawrence Livermore, but understand how you might get confused. This video should clear it all up! #WeAreBerkeleyLab #BerkeleyLab90 @UCBerkeley @Livermore_Lab @doescience @ENERGY https://t.co/z5MAN5YbCb
— Berkeley Lab (@BerkeleyLab) March 22, 2021
Why COVID-19 Models Don’t Predict the Future by @QuantaMagazine
"Epidemiology is not rocket science…it's harder"
Nigel Goldenfeld, Swanlund, Professor of Physics @Illinois_Alma #Statistics #DataScience #Epidemiology #Covid19 #Covid_19 #modelling https://t.co/GCy4MhrQ2S— CANSSI Ontario (@CANSSIOntario) March 23, 2021
How to Get Started Hydroponic Gardening – Green Matters https://t.co/GQd9W7AnZs pic.twitter.com/GGOI8g57Gm
— OIKOS – Vegetables instead of flowers (@oikos_solutions) March 17, 2021
.@TuftsUniversity Alumnus, and VP of clinical development for public health vaccines at Moderna, Brett Leav credits #FletcherProf Leila Fawaz, amongst others, for giving him the foundation he needed to follow his passion for #science and #medicine. https://t.co/Z3ya6gShRi
— The Fletcher School (@FletcherSchool) March 18, 2021
#Equinox! The Sun is crossing the celestial equator heading North; the one and only sunset of the year at the South Pole is currently underway, bringing an end to six months of 24/7 sunlight at 90°South #SouthPole #Antarctica pic.twitter.com/cVyQgmWeuT
— The Antarctic Report (@AntarcticReport) March 20, 2021
Meet Stretch, a new Boston Dynamics robot that's designed to move boxes in warehouses and distribution centers. Its arm has 7 degrees of freedom and tentacle-like grippers. https://t.co/W6FSEkiNvo pic.twitter.com/UwIrvM2LF4
— CNN International (@cnni) April 4, 2021
You've never seen a 3D printer like this before pic.twitter.com/bgk4Aq6nwx
— Mashable (@mashable) March 20, 2021
They're changing the broccoli game pic.twitter.com/1jpAZCRS5q
— Mashable (@mashable) March 20, 2021
This robot can repair itself! pic.twitter.com/c7qyD5nEgJ
— Mashable (@mashable) March 20, 2021
Weird fact of the day: bacteria in your stomach can produce electricity⚡ pic.twitter.com/2DYIDQCwU3
— Mashable (@mashable) March 20, 2021
This blade is made of paper and cuts through stuff like butter pic.twitter.com/u9yt3vmNns
— Mashable (@mashable) March 20, 2021
This robot is training to become a construction worker pic.twitter.com/rdpSpUlcHU
— Mashable (@mashable) March 20, 2021