The Royal Society of Chemistry (RSC) has committed to making all of its journals open access within the next five years. It is the first chemistry publisher to commit to a 100% open access model and hopes to fund the move in a way that will avoid individual authors having to pay article processing charges (APCs).
Traditionally publishers of scientific journals have relied on subscription fees to journals to cover the cost of their activities. But in recent years there has been a growing push for scientific knowledge to be shared freely, regardless of readers’ ability to pay.
For example, the Plan S movement in Europe has campaigned for funders to ensure the researchers they support publish their results in open access journals. This has led to the European Research Council and UKRI requiring grantees to publish their work in open access journals. Meanwhile in the US, all government-funded research will need to be published open access from 2026. These measures have seen a growing number of journals move towards open access models.
Open access journals generally require authors to pay a one-off APC in order to publish their papers. This covers costs associated with managing the peer review process and maintaining the scientific record, and means that anyone can read the journal’s content without having to pay a subscription.
But in announcing its commitment to a fully open access model, the RSC notes that it hopes to negotiate new ‘institutional or funder level’ agreements, where institutions pay a flat rate so that their researchers can publish in RSC journals without paying individual APCs. These deals would take into account regional differences so that institutions in poorer nations would not be expected to pay the same rates as those in richer countries.
The RSC publishes 44 journals across the chemical sciences, with most still operating a subscription model.
‘Obviously, a transition to full open access is great in terms of making research as broadly available as possible for all, without barriers to reading. My biggest worry with such transitions is always that if the transition is done as an APC-based approach, it just shifts the barriers from reading to publishing,’ says computational biochemist Lynn Kamerlin, who works at Uppsala University in Sweden. ‘So actually one of the best things in the announcement in my opinion was the fact that the RSC is very much aware of this challenge, and is committed to exploring new and other open access models to ensure that this transition doesn’t become a barrier to publishing.’
‘It’s worth noting also that while those most affected are indeed researchers from the countries where funds to even conduct research is extremely restricted, even in nominally wealthy countries access to research funds is heavily variable, and APCs can present a major barrier to dissemination,’ she adds. ‘I fully support the RSC’s goal to ensure that the majority of the global author community is covered by institutional or funder level deals, and commend the RSC for taking this major step in a transition towards full open access, with addressing equity concerns so high up on the agenda.’
Floris Rutjes, a synthetic organic chemist from Radboud University in the Netherlands who is president of the European Chemical Society, says that he is ‘pleasantly surprised’ to learn of the RSC’s new commitment to open access publishing, describing it as ‘a big step forward in pursuing open science’.
‘A few years ago, I was involved in negotiations between the Dutch universities and the RSC about a new transformative deal on a national level, which was rather complex with read and publish components for the different journals and long negotiations,’ says Rutjes. ‘This situation will become much more straightforward after switching to a full open access system. From the researcher’s point of view, I do hope that there still will be agreements between the RSC and university libraries so that the APCs will be paid by the libraries and not by the researchers themselves as is currently often the case when publishing in open access journals.’
In a statement, RSC director of publishing Emma Wilson notes that it is ‘essential’ to the organisation that all authors retain the same ability to publish regardless of where they are based. ‘We are aiming for a future in which [open access] publication makes authors’ work accessible on a global scale,’ she said. ‘As we saw with Covid research, enabling that level of openness and international collaboration can be a catalyst for accelerating innovation and discovery, creating a better, more sustainable future for all.’
‘This is an exciting step for the RSC and our growing portfolio of highly respected journals,’ added University of Strathclyde chemist Duncan Graham, who chairs the RSC’s publishing board. ‘The transition to open access will mean the RSC can ensure that everyone across the globe has the same ability to read and build upon all of the important research published in RSC journals while continuing to maintain the high-quality standards and reputation our community relies on.’
YouTuber Mark Rober drops eggs from space to land in Victor Valley – VVdailypress.com
The 42-year-old Rober and his team of scientists dropped both eggs, with the intention of them not breaking, from a height of nearly 19 miles and with the help of a high-altitude balloon provided by Night Crew Labs.
The launch occurred earlier this year, but the “Egg Drop From Space” video was uploaded to YouTube on Black Friday.
It includes shots of the team driving on Bear Valley Road toward Deadman’s Point in Apple Valley. Also shown are Bell Mountain, Interstate 15 and an area west of I-15 and near the Dale Evans Parkway offramp.
A shot from the weather balloon in space showed the Victor Valley, including landmarks such as Spring Valley Lake and the Mojave River.
The egg-drop project
When Rober started conceptualizing his egg drop project nearly three years ago, he knew that a successful record drop would come from his experience of landing scientific gear on other planets when he worked for NASA.
A graduate of USC, Rober worked at NASA for nine years, seven of them on the Mars Curiosity project. He also spent five years at Apple working on advanced virtual reality technology for autonomous vehicles before quitting to become a full-time YouTuber.
Rober confessed that before he embarked on the egg drop project, he didn’t know that it would be the most “physically, financially and mentally draining video” he would ever attempt.
Rober’s team included rocket and propulsion specialist Joe Barnard, of BPS Systems, which helped with the rocket’s guidance system and design.
Rober’s original plan was to affix an egg onto a rocket, which would be lifted by a large weather balloon. Once in space, the rocket would be released and would guide the rocket to an area over the drop target.
At 300 feet above the ground, the egg would be released and free-fall toward a specially designed mattress.
After determining the terminal velocity of the egg to be 74 mph, he successfully tested the speed inside his Crunch Lab located near San Francisco
Rober and his team then headed to the Northern California town of Gridley for three low-altitude tests, which all failed.
‘A fatal flaw’
Rober sought the guidance of NASA engineer Adam Steltzner, who works for the Jet Propulsion Laboratory and on several flight projects including Galileo, Cassini, Mars Pathfinder and the Mars Exploration Rovers.
After listening to Rober and details about his project, Steltzner found a “fatal flaw” in the project and asked him, “How did you not get busted by the FAA?”
Rober realized that his project was akin to creating a precision-guided missile, which is frowned upon by the federal government.
Heading to the High Desert
After going back to the drawing board, Rober’s team decided to conduct a rocket launch with a general egg drop target area in the High Desert.
The launch would use a weather balloon, which would lift a larger and heavier rocket to guarantee the egg would reach supersonic speed on its way down.
The helium-filled balloon would release the rocket, which would begin separating.
A portion of the rocket, carrying the egg, would slow before losing its nose cone and deploying a parachute and cushioned airbags, which were borrowed from the Spirit and Opportunity landing projects.
Just before liftoff, Rober discovered that the newly designed, the two-piece rocket might unexpectedly separate at Mach 2.
Rober and his team fixed the rocket’s connection point and ran vacuum and heat tests on the egg chamber.
They also built redundancy into the system, which included creating a custom beach ball, filled with packing materials to protect a second egg.
The entire payload, suspended from the balloon, would detach and simply fall to earth over the target.
Rober’s friend, JPL systems engineer Allen Chen, traveled to the Victor Valley for Rober’s second launch.
In 2012, Chen uttered the famous words, “Touchdown confirmed, we’re safe on Mars,” after the Curiosity Rover had survived the harrowing plunge and landed on the red planet.
Somewhere near Apple Valley, the lift-off of Rober’s balloon, rocket, beach ball and eggs was successful.
As the team drove and arrived at the projected landing site, they discovered that the balloon had surpassed the 100,000-foot mark.
As the group celebrated, moments later, they discovered that the balloon had suddenly lost altitude and came crashing down to earth.
As the balloon ascended, the cord that held the rocket, beach ball and eggs had wound so tight that it pulled down on the balloon, causing it to come hurtling down at 150 mph, “Which is way faster than the eggs could survive,” Rober explained.
As the team looked for the wreckage, they spotted the parachute, the rocket and the beach ball.
Rober was excited that at 20,000 feet, the payload had autonomously detached itself from the balloon.
Rober held back his excitement as he opened the rocket to inspect the egg.
As a smiling Rober pulled an uncracked egg from the rocket and held it high, Chen joyously said, “Touchdown confirmed, we’re safe on earth.”
That was repeated when Rober ripped open the beach ball and pulled out a second uncracked egg that he kissed.
“Two for two, baby!” shouted Rober as he high-fived Chen. “Two for two!”
Rober ended the video by saying that the egg drop from space project reminded him that in life things rarely unfold how we think they will.
“But by learning from your failures, coupled with a bit of tenacity, us humans can accomplish a feat as incredible as the world’s smartest Martian robot or as ridiculous as the world’s tallest egg drop,” Rober said.
Daily Press reporter Rene Ray De La Cruz may be reached at 760-951-6227 or RDeLaCruz@VVDailyPress.com. Follow him on Twitter @DP_ReneDeLaCruz
In a B.C. first, UVic mini-satellite launched into space after four years of work
A University of Victoria satellite the size of a two-litre milk carton, designed to calibrate light, was fired into space Saturday, after four years of work by dozens of students, faculty and researchers.
ORCASat started its journey to space at 11:20 a.m. Saturday as part of NASA’s SpaceX Falcon 9 rocket launch at Kennedy Space Center in Florida.
Early this morning, about 4 a.m., the satellite is scheduled to be taken on board the International Space Station where it will wait for a few weeks before being fired into space to orbit the Earth for as long as it can survive.
Saturday’s successful launch was extra-sweet because a planned Tuesday launch was postponed due to poor weather. Watchers from UVic returned home after the delayed launch.
A nervous Alex Doknjas, ORCASat project manager, went into his family’s living room at 10:30 a.m. Saturday where he waited with loved ones and about 20 others on a video chat, including a UVic group, to watch the event together. Cheers and claps erupted when the rocket launched on time. “It’s great. It’s fantastic,” he said.
There was a little wind picking up on the launch site shortly before liftoff was scheduled and Doknjas said he was worried it was about to get scrubbed again, but that didn’t happen.
The excitement has been years in the making thanks to about 140 people who have been part of a team at the University of Victoria Centre for Aerospace Research.
Full-time researchers, co-op and volunteer students from UVic Satellite Design, UBC Orbit, and Simon Fraser University Satellite Design have all contributed.
The ORCASat (for Optical Reference Calibration Satellite) measures 10 centimetres by 10 centimetres by 23 centimetres and weighs 2.5 kilograms.
Doknjas said as far as he knows this is the first “Cubesat” designed and built in this province. “That’s a pretty big milestone.”
The estimated date to launch ORCASat is between Dec. 29 and the first week in January.
ORCASat will be doing a 400-kilometre orbit around Earth and travelling at 7.5 kilometres a second. “It’s pretty fast.”
It is not known exactly how long it will last but it could be six to eight months, up to 18 months, Doknjas said. Factors such as sun flares, solar radiation, pressure and more can all impact the life of the satellite.
ORCASat is basically an artificial star, a reference light source in orbit that can be viewed by telescopes on Earth.
Astronomers can measure how bright ORCASat appears, just as they would an astronomical object.
At the same time, the satellite, using two laser light sources, will measure the amount of light that an astronomical object is emitting.
This will allow ground-based telescopes to be calibrated to measure the absolute brightness of an astronomical object, not how they appear after passing through the atmosphere and the optics of a telescope.
This is the first satellite ever to carry a light source capable of performing this experiment to this level of accuracy.
It is a proof-of-concept technology which in the future could be developed to be applicable in such areas as climate change, Earth observation and methane gas research, Doknjas said.
NASA’s Orion spacecraft breaks Apollo 13 flight record
The Artemis 1 Orion crew vehicle has set a new record for a NASA flight. At approximately 8:40AM ET on Saturday, Orion flew farther than any spacecraft designed to carry human astronauts had ever before, surpassing the previous record set by Apollo 13 back in 1970. As of 10:17AM ET, Orion was approximately 249,666 miles ( from 401,798 kilometers) from Earth.
“Artemis I was designed to stress the systems of Orion and we settled on the distant retrograde orbit as a really good way to do that,” said Jim Geffre, Orion spacecraft integration manager. “It just so happened that with that really large orbit, high altitude above the moon, we were able to pass the Apollo 13 record. But what was more important though, was pushing the boundaries of exploration and sending spacecraft farther than we had ever done before.”
Of all the missions that could have broken the record, it’s fitting that Artemis 1 was the one to do it. As , Apollo 13’s original flight plan didn’t call for a record-setting flight. It was only after a mid-mission explosion forced NASA to plot a new return course that Apollo 13’s Odyssey command module set the previous record at 248,655 miles (400,171 kilometers) from Earth.
With a limited oxygen supply on the Aquarius Lunar Module, NASA needed to get Apollo 13 back to Earth as quickly as possible. The agency eventually settled on a flight path that used the Moon’s gravity to slingshot Apollo 13 back to Earth. One of the NASA personnel who was critical to the safe return of astronauts Jim Lovell, Jack Swigert and Fred Haise was . He wrote the emergency plan that gave the Command and Service Module enough power to make it back to Earth. Artemis 1 is carrying a “” test dummy named after the late Arturo.
Earlier this week, Orion completed a . After the spacecraft completes half an orbit around the satellite, it will slingshot itself toward the Earth. NASA expects Orion to splash down off the coast of San Diego on December 11th.
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