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Israel and the moon effect: From Beresheet to the Lunar Library



Israel and the moon effect: From Beresheet to the Lunar Library
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Some issues need to be clarified with reference to the so-called failed Israeli mission to the Moon, which in Italy has been commented by people who, besides not knowing what they write, think that our satellite is a Sunday skating rink for bored vacationers.

The troubles that led to the accident were the components that did not fit in space; the difficulty of tracking the spacecraft; the failed science mission; the limited government help; media manipulations; the U.S. investigative procedure on the suspicion of lunar pollution. Itai Nevo, editor-in-chief of the Davidson Institute website, reveals untold things about the first Israeli mission to the Moon.

On the morning of February 22, 2019, hundreds of thousands of Israelis witnessed the launch of Beresheet (Genesis), the Israeli spacecraft that was about to make history and land on the Moon. The mission was to make Israel the fourth country to have landed a spacecraft on the Moon, but it had many other historic aspects: it was the first privately funded spacecraft to want to touch down on the lunar soil, the smallest and cheapest spacecraft to do so, and the first to be sent to the moon as a “hitchhiker” on another launch. The SpaceX launch vehicle’s primary launcher was an Indonesian communications satellite.

The spacecraft initially made its way to the Moon in increasing elliptical orbits around the Earth, with the transition between each orbit made by manoeuvring the engine for a short period of time, up to a few minutes. On April 4, 2019, it performed the most complicated manoeuvre (other than landing), activating the engine to decelerate and entering orbit around the Moon. A week later and following a few more deceleration manoeuvres, the actual landing began, in which the braking engine was reactivated to enable it to land gently in the Sea of Tranquillity.

At first, everything went well, but in the last ten minutes before landing, a series of malfunctions began that led to the engine shutting down and eventually the spacecraft crashing into the Moon. That same night, SpaceX and the aerospace industry explained that the reason for the accident was the amount of acceleration of the spacecraft, and promised to conduct a detailed investigation and publish the findings. Although the investigation was concluded, the findings were never published in an orderly manner. They are brought here to your knowledge for the first time, taken from

As with any space crash, the Beresheet crash was not caused by a single technical problem, but by a series of failures. Some of them lay in the original design of the vehicle which, as mentioned above, was very small and was built on a relatively small budget for such space missions: 100 million dollars including launch and operational costs. The other cause was a human error.

As early as the night of the launch, the engineering team announced there was a problem with the star trackers – a pair of cameras designed to photograph the sky, identify certain stars and thus determine the angle of the spacecraft in space – i.e whether it was flying “forward, ” “backward” or “sideways.” This is critically important during engine operation, because an incorrect angle sends the spacecraft into a completely different orbit than planned. Apparently, while pulling away from the launch pad, some dust particles settled on the dark shields that were supposed to protect the star trackers from direct sunlight, and hence they reflected the light and dazzled the cameras.

Early attempts to get around the problem were to use new software instructions, but they were unsuccessful. Engineers, instead, found creative solutions, including tilting the spacecraft sideways during manoeuvres and using accelerometers instead of star trackers in manoeuvres where it was impossible to escape sunlight. These changes forced the ground teams to do a lot of work and also made it difficult to locate the spacecraft, since any distortion could also deviate slightly from its orbit.

A few days after launch, another malfunction occurred when the spacecraft’s computer suddenly rebooted and postponed a planned manoeuvre. The problem continued to accompany the spacecraft on its journey to the Moon, apparently due to a malfunction in the electronic box that acted as a mediator between the computer and the spacecraft systems because of its exposure to intense radiation in space.

This is part of the price paid for a small, lightweight spacecraft with minimal radiation protection and relatively inexpensive components, some of which, like the box itself, were built specifically for the Beresheet mission and were never tested in space.

Another cost for an economical space mission was that there was only one computer in the spacecraft. Software extensions designed to overcome the problems were therefore not stored into the computer’s memory during the activity, but only into the working memory (RAM). As a result, the extensions were deleted each time the computer was started and had to be loaded back again into a command file.

While approaching the lunar surface, with the engine running all the time, the accelerometer – known as the Inertial Measurement Unit (IMU) – went off. The spacecraft had two of these accelerometers and was performing sufficiently with only one. At that time the team had to make a quick decision, i.e. whether to continue with just one correct one and hope it would not fail, or try to run it layer by layer. The decision was not to waste time.

Owing to the design logic of the spacecraft, however, the operation of an accelerometer briefly blocked the transmission of information from the normal accelerometer. For less than a second, the computer did not receive acceleration data and hence declared the navigation error. In such cases the software restarts. The restart took less than two seconds, but the computer went back into operation without the software extensions which, according to the landing command file, should have loaded for extra safety every minute.  

As a result, the computer rebooted continuously, and only after about five of these reboots did the extensions finally arrive as well.

The computer reboot caused the spacecraft’s main engine to shut down, which at that point should have run continuously and slowed the landing down. The computer was supposed to start up the engine immediately, but a malfunction was discovered that the engineering team detected before the startup but could not solve: in order to restart, the engine had to draw power from two sources, but after the startup only one of them worked, and the main engine did not fire.

The spacecraft continued to fall diagonally towards the Moon, with only the small directional engines continuing to operate while maintaining the correct direction. It hit the lunar ground at a speed of over 3,000 km/h and fragmented into many pieces.

As mentioned above, some of Beresheet’s problems were caused by the use of relatively inexpensive components, not all of which had been tested on other space missions. Even the accelerometers, which worked well throughout the mission until that major malfunction, were not designed specifically for space missions, and information about their operation on satellites was partial and incomplete. The fear of defects in their operation meant that they were present in duplicate numbers on the spacecraft.

Ofer Doron, who until a few months ago was the Director of Israel Aerospace Industries (IAI) that led the project with SpaceIL, said: “On a normal mission, we would not launch the spacecraft in such a situation. There was no redundancy of components and system. Many of the components were not tested in space and the probability of a successful landing was very low and we were not ready enough. Usually we do not launch unless there is a high probability of success, but the spacecraft was launched with small and inexpensive means. This is how it works in this area. The task force was also not properly trained, although they did a lot of training and preparation. In a normal satellite we would delay the launch, but when you are a hitchhiker and not the main cargo, there is no such option. We decided that it was enough and came out with a lower level of adequacy than we wanted.”

Doron, however, pointed out that the very construction of the spacecraft in a short time and partial operation, and even the presence of the problems that were discovered, were a huge achievement. “A very valuable group of people made a supreme effort to complete a mission on the brink of the impossible and came very close to the goal. They deserve considerable appreciation. The landing failed not because of human error, but because of a sequence of concatenate events.”

During the mission, Ido Antebi, CEO of SpaceIL pointed out. “The spacecraft was not designed to withstand two independent failures, otherwise it would not have cost a hundred million dollars but a billion. We performed all possible tests and simulations before the mission, otherwise we would not have launched it if we were not ready.”

Would avoiding the operation of the layered accelerometer prevent the sequence of failures and allow a proper landing? It is obviously impossible to know, and other problems may have arisen. In the sequence of landing events, shortly after the accelerometer was instructed, reminders were made to avoid it. Was it a human error? Was it impossible to share information between teams? Was it an accumulation of problems in the spacecraft? It depends on who you ask. One thing is certain: during Beresheet’s seven weeks, the team worked much harder than expected because of completely unexpected problems.

In addition to the initial problems and difficulties with the star tracker, the team had a fundamental problem in knowing exactly where the spacecraft was – a problem not shared with the media and the public. The spacecraft’s exact location is calculated by communicating with it, i.e. measuring how long its signal takes to be received by ground stations and thus determining its distance from us. Based on the measurement of the Doppler effect, the change in radio wave frequency, its speed and direction are calculated. This data, together with the angles calculated with the help of the star trackers, provides the information needed to operate the engines in manoeuvring.

Communication was through the Swedish company SSC’s antenna system, but it was accompanied by many malfunctions, especially in the initial weeks, and data required repeated checks. This was compounded by the problem with the star trackers, because their operation sometimes required the spacecraft to rotate on an axis during a course that might change its orbit slightly. It so happened that determining each position required many more hours of work than expected. Work on software extensions also required significant time investment. Engineers cut back or cancelled vacations because of the workload and more than once even slept in an aerospace facility.

The workload on the team increased especially in the last week, where many manoeuvres were planned in orbit around the Moon. In addition to the engineering team’s fatigue, the congestion of routine work led to the cancellation of ground team exercises planned during the mission. Would these practices have been able to expose and counteract in advance the failures that led to the accident? It is impossible to know. The number of possible scenarios is huge, and there was no certainty that the scenario that occurred would have arisen.

In addition to the challenge of landing on the Moon, a science mission led by Prof. Oded Aharonson of the Weizmann Institute of Science was also initially added. The mission relied on a magnetometer to measure local magnetic fields in an effort to better understand the Moon’s geology and its formation processes. The magnetometer was to measure magnetic fields primarily during the landing phases as the spacecraft passed over the Moon at a relatively low altitude, while at the same time transmitting the information in real time, with images, through NASA’s communications network.

Aaronson said: “We turned the magnetometer on for testing early in the mission and it worked well during landing. We got data above 20 miles, but not the most interesting measurements from lower altitudes. The spacecraft probably continued to measure but no longer transmitted data. We were unable to extract useful information from the data obtained. Because the Moon’s magnetic fields are relatively weak and the spacecraft itself created a strong field. Hence the magnetometer operated partially outside its planned range, thus making it difficult to extract information from the data and draw new conclusions about the Moon.”

Another NASA science device was added to the mission shortly before launch, following an agreement with the U.S. Space Agency to use its communications network. The device was a reflector, a small dome five centimetres in diameter, lined with special mirrors designed to return a laser signal from the Moon. It allowed to determine the exact height of the satellite and obviously the position of the spacecraft. For several weeks, Aaronson and satellite operators scanned the crash site in an attempt to detect a laser reflection from the reflector, but in vain.

Before launch, the Arch Lunar Library was installed in the spacecraft.

The Arch Lunar Library is the first in a series of lunar archives by the Arch Mission Foundation in Los Angeles, designed to preserve the records of our civilization for up to billions of years. As mentioned above, it was installed in the Beresheet lunar module.

The Lunar Library contains a 30-million-page archive of human history and civilization, covering all subjects, cultures, nations, languages, genres and time periods. The Library is housed inside a 100-gram nanotechnology device that is similar to a 120 mm DVD. Nevertheless, it is actually composed of 25 nickel disks, each only 40 microns thick, which were made for AMF by NanoArchival. The first four layers contain over 60,000 analog images of book pages, photographs, illustrations and documents, engraved from 150 to 200 dpi, at increasing levels of magnification, by optical nanolithography. The first analog layer is the Front Cover and is visible to the naked eye. It contains 1,500 pages of text and images, as well as holographic logos and diffractive text, and can be easily read with an optical microscope at 100 times magnification or even with a lower power magnifier. Each of the next three analog layers contain 20,000 images of text pages and photos at 1000 times magnification and require a slightly more powerful microscope to be read. Each letter on these layers is the size of a bacillus bacterium.

In the Library’s analog layers there is a specially designed manual that teaches over a million concepts in images and corresponding words in major languages, as well as the content of the Rosetta Wearable disc, from the Long Now Foundation, which teaches the linguistics of thousands of idioms. This is followed by the manual, a series of documents that teach the technical specifications, file formats, and scientific and engineering knowledge needed to access, decode, and understand the digital information encoded in the Library’s deepest layers. Also in the analog layers there are several private archives, including an Israeli time capsule for SpaceIL, containing Israeli culture and history, songs, and children’s drawings. Beneath the Library’s analog layers there are 21 layers of 40-micron-thick nickel sheets, each containing a DVD master.

The digital layers collectively contain over 100 GB of highly compressed datasets, which decompress into nearly 200 GB of content, including English Wikipedia text and XML, as well as tens of thousands of PDFs of books, including fiction, non-fiction, a reference library, textbooks, technical and scientific manuals, etc. The digital layers also contain the Long Now Foundation’s PanLex datasets, a language key for 5,000 languages with 1.5 billion mutual translations.

According to our team of scientific advisors, based on imaging data provided by NASA’s Lunar Reconnaissance Orbiter, the Lunar Library is currently believed to have survived the Beresheet crash and be intact on the Moon.

AMF even made a significant contribution to SpaceIL for the lunar launch. AMF is a nonprofit organization whose goal is to create a cultural backup of Earth on other celestial bodies. AMF stated: “Preserving and disseminating knowledge in time and space is the most important task of mankind.”

About four months after the accident, the U.S. magazine “Wired” reported that the organization had also added samples of human DNA and water bears (tardigrades), tiny creatures known to be highly resilient and able to survive in extreme conditions.

In the beginning, the SpaceIL team knew nothing about the initiative of the organization’s U.S. founder, Nova Spivack, to add biological material to the mission. Its apparent presence in the spacecraft raised suspicions of lunar pollution for such presence. The story of the water tardigrades was widely published, but it was announced that the U.S. Civil Aviation Administration (Federal Aviation Administration) had started an investigation against SpaceIL and SpaceX, which launched the spacecraft, even though there was no evidence of biological material from the beginning.

SpaceIL had to hire legal counsel for this purpose in Israel and the United States of America, at a considerable cost. The proceedings ended a few months later without any action being taken against the companies, even after Spivak himself explained in a letter that he was solely responsible.

“The founder of the Arch Foundation stated in various forums that the association was not aware of the problem” – SpaceIL said in a response: “as stated, to date we do not know whether there were indeed tardigrades on the spacecraft. FAA’s inspection ascertained that the organisation was operating correctly and in accordance with state-of-the-art and accepted procedures.”

In an interview Spivak said: “The issue was exaggerated beyond proportion. The United States of America left nearly a hundred bags of human excrement on the Moon. The Chinese landed seeds and grew a plant on the Moon last year. Many space ships crashed into the Moon and polluted it with toxic fuels. Tardigrades are epoxy [epoxy: group containing an oxygen atom bridging two carbon atoms], not alive, and minimal. If a person signs on paper with a ballpoint pen, the ink in that signature contains more contaminating biological material. It was nothing more than a poetic ‘signature’ from the Earth.”

Spivak, however, refused to explicitly confirm that there was actually biological material in the spacecraft. “I cannot prove that there were or were not tardigrades. I can say that the possibility of having live tardigrades on the Moon is zero. The mystery can only be solved by visiting the Moon and examining the remains of the Beresheet and the Library.”

He added: “We helped SpaceIL because the tardigrade story brought Beresheet to the general public’s attention and sparked positive interest among children and students, who still continue to wonder if there are water bears on the Moon. I think that, overall, the event had a positive impact on SpaceIL in terms of image and place in history. We are their big supporters and would love to help them return to the Moon in the future as well. They did nothing wrong and the law was not broken. There was some confusion and I apologize for that.”

Not everyone agrees with him. Doron said: “This is a hallucinatory event and it is not clear to me how he did not end up in jail”. Yigal Harel, who was Head of the spacecraft project at SpaceIL, added: “It is very annoying and it was a stain on the project and on me, and it did not follow the spirit of Beresheet. The engineering team was not involved in determining the disk content – we just had to make sure it met the launch requirements for space. If there were tardigrades on the disk, I guess they did not survive the explosion caused by the fuel flare during the accident”.

Harel added that one of the reasons for closing the procedure was SpaceIL‘s orderly work with the U.S. Civil Aviation Administration. “They have always seen our seriousness, and when that deception occurred, they took that into account.”

SpaceIL was founded in 2011 to participate in Google’s Lunar X-Prize competition, which offered a 20 million dollar prize for a private initiative to land an unmanned spacecraft on the Moon. At the same time as developing early versions of the spacecraft, the three founders, Yariv Bash, Kfir Damari and Jonathan Weintraub, also worked to make SpaceIL an educational association, using the spacecraft project to encourage children and youth to study science and engineering.

In late 2014 tycoon Maurice Kahn, who helped the founders in the early years, decided to increase his investment in the venture and help recruit additional donors. This enabled the association to hire a professional team of space engineers and carry the venture forward. SpaceIL was the first participant in the competition to sign a launch contract with SpaceX of Elon Musk (a South African entrepreneur with Canadian citizenship, who is a naturalized U.S. citizen). Works continued in March, with the assistance of the aerospace industry, and the spacecraft was built in Musk’s facilities.

By the end of 2017 the budget was exhausted and the road to the Moon seemed farther away than ever. Works continued at IAI’s expense, but the association accumulated a debt to the facility of about 10 million dollars. In early 2018, another blow to the enterprise came when Google announced – after several delays – the end of the competition without a winner. The prize amount, which was part of the enterprise’s planned budget, was deducted from it, and the project was on the verge of collapse. SpaceIL and IAI were seeking additional donors and also asked the government to increase aid.

Google’s competition rules enabled groups to receive government assistance of up to ten percent of the cost of the venture. The Ministry of Science initially pledged to support the spacecraft with 5.5 million new shekels, which at the time accounted for 10 percent of the estimated budget, but paid only about two million new shekels.

When further assistance was requested, the Ministry increased its planned aid, adding 7.25 million new shekels, i.e. just under ten million in total. But the spacecraft’s budget had meanwhile reached 100 million dollars and hence the government could have quadrupled its contribution – and even more so after the decision was made to look outside as well.

Although the Ministry of Science and Technology and Minister Ophir Akunis were very proud of their achievements at the beginning, it now becomes clear that, at the moment of truth, the Ministry did not respond to calls for further increasing the budget and rescuing the Israeli spacecraft project. Minister Akonis, who even flew to Florida to witness a close-range launch, stressed the importance of Beresheet to the State of Israel and repeatedly emphasized his Ministry’s contribution to the project, which he said was within the limits of competition.

However, the one who ultimately rescued Beresheet was still Morris Kahn, who increased the donation amount, out of his own pocket, to over 40 million dollars and made it conditional upon IAI waiving its debt. In the end, IAI agreed on two conditions: full ownership and rights to all of Beresheet’s knowledge and full cooperation in managing the mission, as well as its public relations and publicity.

The Director of the Israel Space Agency at the Ministry of Science and Technology, Avi Blasberger, pointed out in response that Bereisheet’s budget increase of over seven million new shekels in 2018 was about one-tenth of the Space Agency’s budget and added to many actions by the Agency and the Ministry of Science. He said: “Our budget increase was an important part of Kahn’s decision to continue the project. We also contributed with one million new shekels to fund the association’s educational activities and 700,000 new shekels to fund the science mission. We also signed an agreement for them with NASA to use the deep space network, which was worth hundreds of thousands of dollars to them and they would not have reached it without our efforts. We are also working with NASA to assist them in their next mission”.

The Ministry of Science and Technology further stated: “The Space Agency has initiated and promoted, in cooperation with SpaceIL an educational activity to encourage young men and women to promote exhibitions on space and science and technology studies, as well as the dissemination of SpaceIL‘s activities in the Ministry of Science’s major events, including Israel Space Week, and in various educational programs. The extensive cooperation with the Ministry of Education and SpaceIL basically serves as a power multiplier for the main goal of creating a Beresheet effect in the younger generation.” The Ministry also said that Minister Akonis pledged to double the support for the possible Beresheet 2 raising it to 20 million new shekels.

The Beresheet mission is officially designed to demonstrate Israel’s technological capabilities and create a public impact similar to the Apollo effect of half a century ago, i.e. the great interest that young people in the United States showed in science and technology following the success of the first manned missions to the Moon. Indeed, much of the project’s efforts were focused on public relations, starting with a clear media strategy, namely to produce success at all costs.

Doron said: “With a view to creating solidarity, we built a media campaign designed to turn the spacecraft into something belonging to all of us, with the goal of involving the entire State of Israel in the project. This is the reason why we decided, inter alia, to share – with the public – the problems and difficulties that arose during the mission.”

“The communication strategy was based on the assumption that there was a reasonable possibility we would not be able to land on the Moon, and that we might not even reach it. On the launch date – and even before a precise one was set – we organized an event to introduce the spacecraft to the media,  launched a campaign to choose a name for the module, and selected materials to be sent to the Lunar Library.

“The ceremony for inserting the information disk, including the library, into the spacecraft, was a presentation to the media. The disk was installed into the spacecraft a few days later by the technical team. The public did not know that in order to save costs, the plane that brought Beresheet to the United States stopped in Liege, Belgium, to unload a shipment of vegetables.”

Even during the mission, many resources were invested in promoting the media strategy and public relations. Doron added: “The spacecraft ‘selfie’ with the Earth was intended to be a victory image in case we did not reach the Moon and, in order to photograph it, we negotiated with the U.S. Civil Aviation Administration, which initially did not approve the near-Earth photograph, but eventually responded positively. The ‘selfie’ has already had a significant impact on us because it had to ‘waste’ a computer command file.”

In October 2018, about four months before the launch, a cooperation agreement was signed with NASA, which allowed SpaceIL to use the U.S. Agency space network to communicate with the vehicle in a relatively wide bandwidth and transmit a lot of information in a short time with advanced antennas at several sites around the world. The engineering teams were required to make a huge effort to establish the communication interface with the NASA system in a short time. One of the engineers who worked on the project said: “We did a two-year job in four months”.

Doron added: “The insistence on investing a lot of resources in the communication network with NASA’s was mainly to enable us to send images from the landing in real time. We made many efforts and preparations to get a successful message even if the success was not complete.” In the end, the decision may have been right: the “selfie” of the start of landing on the Moon, was the closest thing to landing from the mission.

“Even though we did not land, the mission was a huge success,” Doron concluded. “Both the Americans and the Russians failed many times before landing softly. The Chinese were the only ones who succeeded the first time, and we were the only fools who had the audacity to attempt a landing on such a first-ever mission. In spite of the many difficulties, we have come a long way.”

Despite justified anger over Spivak’s move and the price of his conduct, there may be something in his remarks about the media effect of the tardigrade affair. The debate over whether the “water bears” can continue to live on the Moon seems to have reached a wider audience than those generally interested in space missions, including children and young people. After the revelations about the Beresheet mission, the issue of life elsewhere continues to resonate on social media even today.

SpaceIL also wanted to emphasize the mission’s educational impact: “Beresheet brought the State of Israel to an unprecedented achievement and made the country the seventh in the world to orbit the Moon [and I would add, even touch on it]. Although there was no soft landing on the Moon, it is important to remember that the Beresheets’ main mission was there, on a celestial body. The Israeli Apollo effect achieved unprecedented success insofar as not only did all Israeli children think, learn and dream about space and the Moon. The audacity and engineering capability that the entire team demonstrated in the mission is extraordinary on any global scale.”

Has the Beresheet effect reached the halls of academia as well? The only institution in the country offering undergraduate studies in space engineering is Technion (Israel Institute of Technology).

A review of the Faculty of Aerospace Engineering revealed that 110 undergraduate students were admitted to its courses in 2020, up from 97 in the previous year, an increase of about 13% overall. According to Faculty Dean Prof. Tal Shima, the increase may be due to the success, exposure and media coverage of the Israeli mission to the Moon, but he noted that the Faculty has also opened a new program of excellence, in cooperation with the Israel Defence Forces, and is also attracting students.

Besides its educational and public impact, it appears that the Beresheet mission also had a direct impact on space exploration, thus demonstrating it is possible to reach the Moon with a small, inexpensive spacecraft. As Antebi maintained: “When you look at the companies that have won NASA competitions for unmanned spacecraft to the Moon, you see that their budgets for these projects are on our scale: tens of million dollars, not a billion dollars. And thanks to our achievement.”

According to the original plan, SpaceIL was to end space operations upon completion of the Beresheet mission. All engineers received early termination letters, and the association was only to continue its educational activities and exploit the space mission to that effect. However, soon after it became clear that the spacecraft had crashed into the Moon, Prime Minister Benjamin Netanyahu promised: “We will try again. We reached the Moon but we want to land more softly and safely.” Two days later, SpaceIL President Kahn announced: “We are working on Beresheet 2 as of today.” As a result, layoffs were postponed for some of the engineers who had been left temporarily to work on analysing the accident and begin drafting the next report.

Some of the engineers also tried to start new projects based on the knowledge gained with Beresheet. Nevertheless, because the property rights had passed to the aerospace industry and there was no funding for another project, all were eventually dismissed. About two months later, SpaceIL management announced that Beresheet 2 had been cancelled and that “trying to repeat a trip to the Moon is quite challenging.”

Some of Beresheet’s engineers joined other space agencies, while others formed independent space companies or are in the process of doing so.  

One of them is Harel, which has recently founded WeSpace, a commercial company that plans to develop innovative vehicles to visit lava caves on the Moon. These are natural caves created as a result of the first volcanic activity on the Moon and have not been explored so far, although they have great potential, for example as a radiation shelter for astronauts. They also hope to find ice, as the caves are not exposed to sunlight.

Harel promised: “We have innovative development in the capacity to reach these places. At such stage there are highly qualified members of SpaceIL working with us voluntarily. Once we manage to raise funds, most of them will join us. The space investment market is huge, and we have an advantage because very few companies are active in deep space – and this is the next frontier.”

Nevertheless, starting in late 2020, it seems that SpaceIL‘s next mission will still be to the Moon. Kfir Damari, one of SpaceIL‘s three founders and vice-President for education. “We are planning a spacecraft very similar to Beresheet, but with more emphasis on science missions, and perhaps with an additional component such as a satellite that will remain in orbit around the Moon. We want value added to the mission beyond the landing itself. The previous experience did not accurately express our perception. Now the assumption is that we do not want to repeat the same task, but to develop and build another spacecraft. It is a completely different challenge.” Jonathan Weintraub, one of the founders of SpaceIL, who is involved in planning the new mission added: “We will carry out a task that will excite and inspire, We have an opportunity to join the international effort to land humans on the Moon, and the question is how Israel can contribute to that.”

Despite not winning the Google competition, SpaceIL received a sort of “consolation prize” of 1 million dollars from the organizers of the aforementioned competition. Last month, the Blavatnik Family Foundation announced an additional 1 million dollar donation to the enterprise. As Damari explained: “The money is earmarked for continued educational activity, and the latest donation is aimed at starting the first works on the next spacecraft. This has enabled us to recruit a new CEO, Shimon Sarid, who will start planning the next mission. Even if we manage to raise money from other sources – such as the State or fees from scientific tests – I imagine that most of the budget will come from philanthropy.”

Beresheet 2 itself could eventually land on the Moon in another form. IAI’s Space facility is partnering with the U.S. company Firefly, which is bidding for the Beresheet spacecraft in a NASA competition to launch unmanned spacecraft to the Moon for resuming manned flights under NASA’s Artemis program.

The U.S. spacecraft is almost identical to the Israeli Beresheet and is based on knowledge and developments that now belong to the aerospace industry. Damari concluded: “We wish them success. We have also developed the spacecraft to advance the knowledge of all mankind.” And I add: to spread it to the Universe through the Lunar Library.



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7 Trends Reshaping a USD 3.9 Trillion Global Halal Industry




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The Global Halal Market (GHM) is not just growing, it’s exploding. Driven by a surging Muslim population, rising disposable incomes, and shifting consumer preferences, this behemoth is projected to reach a staggering USD 3.9 trillion by 2027. But what’s driving this explosive growth? Buckle up, because 2024 promises a thrilling ride fueled by cutting-edge technology, ethical consumerism, and personalized convenience. Here’s your deep dive into the 7 hottest trends reshaping the global halal landscape:

Halal Tech Revolution: Where Silicon Valley Meets Mecca

Forget clunky processes and opaque sourcing. The halal industry is getting a tech makeover, and it’s about time. Blockchain is ensuring ethical sourcing and transparent supply chains, from farm to fork. Imagine halal meat traced back to its free-range roots, with every step documented on a tamper-proof digital ledger. Artificial intelligence is optimizing slaughterhouses, automating processes, and ensuring humane treatment of animals. Halal e-commerce platforms are booming, bringing convenience and halal-certified products to Muslim consumers worldwide. Think Amazon, but with prayer apps, virtual tours of halal farms, and even halal-compliant fintech solutions – the future of halal is digital and delicious!

Ethical Halal: Beyond Compliance, Embracing Values

Muslim consumers are no longer satisfied with just a halal label. They crave sustainability, animal welfare, and organic goodness. Expect a surge in plant-based halal options, from juicy burgers to creamy milkshakes made with innovative pea protein and lentil blends. Ethically sourced meat, raised on antibiotic-free feed and roaming in spacious pastures, will be the new gold standard. And get ready for a beauty revolution: cruelty-free cosmetics and hygiene products that adhere to Islamic principles will pamper consumers with peace of mind.

Convenience is King: Busy Lives, Halal Solutions

In today’s fast-paced world, convenience reigns supreme. The halal industry is taking note, with solutions tailor-made for busy Muslim lives. Subscription meal kits will deliver pre-portioned, halal-certified ingredients straight to doorsteps, complete with recipe cards for stress-free meal prep. Halal food delivery apps will take the guesswork out of dining out, connecting users with a curated selection of restaurants and cafes offering delicious and compliant meals. And for those special occasions, on-demand halal catering will ensure stress-free gatherings, leaving hosts free to enjoy the festivities.

Beyond Food: The Halal Universe Expands

The halal industry is shedding its “food-only” label and branching out into exciting new frontiers. Halal travel is booming, with destinations vying for Muslim tourists by offering halal amenities, prayer spaces, and culturally sensitive experiences. Imagine exploring Marrakech’s vibrant souks or unwinding on a pristine Maldives beach, all while knowing your needs are catered to. Halal cosmetics are gaining traction, with innovative brands formulating products free of alcohol, animal derivatives, and harsh chemicals. And even the pharmaceutical industry is taking notice, developing halal-compliant medications and healthcare products that align with Islamic principles.

Science & Innovation: Reimagining Halal with Cutting-Edge Tech

Research labs are not just churning out papers; they’re cooking up a futuristic halal feast. Lab-grown halal meat is no longer science fiction, with companies like Eat Just and Aleph Farms creating meat indistinguishable from its conventional counterpart, but without the ethical and environmental concerns. Plant-based alternatives are evolving beyond bland tofu, with innovative textures and flavors mimicking everything from juicy steaks to succulent lamb shanks. Get ready for halal food reimagined with cutting-edge technology, offering delicious and sustainable options for the future.

Health & Wellness: Halal Goes Holistic

Muslim consumers are prioritizing their well-being like never before. Enter functional halal foods infused with ingredients like probiotics, antioxidants, and adaptogens, designed to nourish the body and mind. Sports nutrition is another burgeoning market, with protein powders and energy bars formulated specifically for Muslim athletes seeking halal-compliant performance boosters. And for those managing chronic conditions, dietary supplements tailored to diabetes management, weight loss, or heart health will offer halal solutions for holistic well-being.

Storytelling & Branding: Building Trust, Shaping Perceptions

In a crowded marketplace, differentiating your brand is key. The halal industry is catching on, embracing compelling narratives and values-driven branding. Showcase your commitment to ethical sourcing, sustainability, and community engagement. Share inspiring stories of the farmers who raise your halal meat, the scientists developing innovative food technologies, or the communities you empower through your business practices. By building trust and aligning with consumer values, halal brands can stand out.

Embrace the Halal Revolution:2024 is not just a year on the calendar; it’s the dawn of a new era for the halal industry. By harnessing the power of technology, embracing ethical values, and catering to evolving consumer needs, halal businesses can tap into a USD 3.9 trillion market brimming with potential. So, whether you’re a food producer, travel blogger, or tech whiz, join the halal revolution. Optimize your offerings, tell your story, and connect with Muslim consumers worldwide. The future of halal is bright, and the time to act is now.

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Beyond Andalusia: Exploring Spain’s Islamic Heritage through Halal Tourism




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Spain’s evolving landscape of Muslim-friendly tourism is a testament to its rich Islamic history and its commitment to embracing diverse cultural needs. As we head into 2023, projections indicate a staggering 85 million international visitors to Spain, a 16.4% increase from the previous year, highlighting the country’s growing appeal as a global tourist destination. A significant portion of these tourists are from Muslim-majority countries, drawn to Spain’s Islamic heritage and the burgeoning availability of Halal services and tailored cultural experiences.

The Rise of Halal Tourism in Spain

Spain’s shift towards accommodating Muslim tourists is evident in the increasing number of Halal-certified establishments and services. The Spanish Halal Institute has reported a surge in businesses seeking Halal certification, a rise from 100 in 2010 to over 500 in recent years. This growth is not only a response to the rising Muslim visitor numbers but also a strategic move by Spanish businesses to tap into the lucrative Muslim market.

Muslim-friendly Services Across Spain

Beyond the traditionally popular Andalucía, other regions in Spain are adapting to the needs of Muslim tourists. Cities like Barcelona, Toledo, and Madrid now offer a range of Halal dining options, prayer facilities, and culturally sensitive services. For instance, the Mandarin Oriental in Barcelona, a Halal-certified hotel, offers amenities tailored to Muslim guests, including prayer mats and Halal food options. Similarly, the Costa del Sol Hotel in Torremolinos has trained its staff in Muslim culture and traditions, enhancing the experience for its Muslim clientele.

Cultural and Historical Tourism

Spain’s Islamic history, particularly the legacy of Al-Andalus, is a major draw for Muslim visitors. Educational initiatives like walking tours in Toledo, led by Aicha Fernández, and Madrid’s Muslim and Arab heritage tours, organized by Rafael Martínez, provide insights into Spain’s rich Islamic past. These tours are not just tourist attractions but educational experiences, offering deep dives into the historical and cultural significance of Spain’s Islamic era.

Economic Impact and Market Potential

The economic potential of Muslim-friendly tourism in Spain is immense. According to a report by the State of the Islamic Economy (2022), the global Muslim population, a significant portion of which belongs to the rising middle class, is increasingly travel-savvy and demands tailored services. This presents a lucrative opportunity for Spanish businesses in the tourism sector.

Government Initiatives and Recognition

The Spanish government’s role in promoting Muslim-friendly tourism is pivotal. Efforts like the creation of Halal tourism guides by municipalities like Málaga, which won recognition at the Halal In Travel Global Summit in Singapore, underscore the national commitment to positioning Spain as a Muslim-friendly destination.

Challenges and Opportunities

Despite the progress, challenges remain. Celia Rodríguez, a Spanish revert, notes the scarcity of Halal options in some regions and the need for better-informed services for Muslim tourists. This gap presents an opportunity for businesses to further tailor their offerings and improve communication with Muslim clients.

Global Context and Future Prospects

Globally, the trend towards Muslim-friendly tourism is gaining momentum, with countries like South Korea and Japan also emerging as popular destinations. Spain’s strategic approach to embracing and catering to the needs of Muslim tourists not only enhances its competitive edge in the global tourism market but also promotes cultural understanding and inclusivity.

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TB Research Shows a Good Diet can cut Infections by Nearly 50%




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Tuberculosis is the single most deadly infectious killer of humankind. It claimed 1.6 million lives in 2021 alone. As the search for effective ways to fight the disease continues, the findings of new research offer hope: a good diet can cut infections by nearly 50%. Yogan Pillay and Madhukar Pai write that nutrition is a vaccine in all but name.

For centuries, we have known that tuberculosis is a social disease. It thrives on poverty and social factors such as malnutrition, poor housing, overcrowding, unsafe work environments and stigma. Globally in 2021 an estimated 2.2 million cases of TB were attributable to undernourishment, 0.86 million to HIV infection, 0.74 million to alcohol use disorders, 0.69 million to smoking and 0.37 million to diabetes.

But knowledge about social determinants alone does not always translate into tangible action and progress. A new trial in India, called RATIONS, aimed to determine the effect of nutritional supplementation on new cases of tuberculosis in households of adults with pulmonary TB. The research found that providing food baskets to people with TB and their households could go a long way to prevent and mitigate the disease.

No easy silver bullets

The TB community has typically looked for biomedical solutions, or “silver bullets”, for a social pathology, and we are struggling to make progress. Since the COVID pandemic, TB mortality and incidence have increased globally, putting TB back on top as the single most deadly infectious killer of humankind.  In 2021, 1.6 million people died of TB. In Africa, TB incidence is high (212 per 100,000 population) with a high case fatality rate because of the HIV epidemic.

Undernutrition is the most important cause of TB. This has been shown in studies in many countries, including South Africa, where researchers found poor levels of nutrition in patients admitted to a specialized TB hospital. Malnutrition refers to all forms of deficiencies in nutrition, including over-nutrition and obesity. Undernutrition refers more specifically to a deficiency of nutrients. While we know that many patients with TB have poor nutrition, the latest evidence is that undernutrition also plays a key role in TB within households.

The results of the Reducing Activation of Tuberculosis by Improvement of Nutritional Status (RATIONS) trial show that improved nutrition in family members of patients with lung TB reduced all forms of TB by nearly 40%, and infectious TB by nearly 50%.

This trial recruited 10,345 household members of 2,800 patients with lung TB.

  • All TB patients received a monthly 10kg food basket (rice, pulses, milk powder, oil) and multivitamins for six months.
  • In one group family members received 5kg rice and 1.5kg pulses per person per month, while the other group of family members did not get food baskets.

Food worked like a vaccine in this trial, cutting the risk of household members developing TB.  Nutrition could also protect against other conditions such as anaemia, diarrhoea and respiratory infections, but these were not not the main focus of the trial. An accompanying paper, based on the results of the RATIONS trial, showed that severe undernutrition was present in nearly half of all patients.

An early weight gain in the first two months was associated with 60% lower risk of TB mortality. The other benefits were higher treatment success and better weight gain. During the six-month follow-up period, a remarkable treatment success rate of 94% was achieved.

Getting food to patients

How expensive was the intervention? The cost of a food basket was US$13 per TB patient per month and US$4 per household member per month and could be delivered, even in rural areas, using field staff. Even before the RATIONS trial, the Indian government had recognised the need for nutrition support for people with TB, and in 2018 launched “Nikshay Poshan Yojana”, a direct benefit transfer scheme. Under this scheme, each TB patient receives a financial incentive of US$6 per month for the duration of the anti-TB treatment (typically, six months for people with drug-sensitive TB).

Emerging data suggests that while the scheme improves the treatment completion rates among patients with TB in India, they often receive their payments late. There is a need to improve the efficiency and provide timely payments.

The new RATIONS trial suggests that directly providing food baskets may be another effective strategy.

Many countries, including India, have other social security programmes, including public distribution systems  to provide food grains at subsidised prices. Using existing channels to provide extra food rations to people with TB, and expanding the menu to include proteins such as pulses and millets, is a strategy worth exploring. This could also have positive effects on other diseases such as diabetes.

Implications for South Africa

South Africa is one of the countries labelled by the World Health Organization as a “high TB burden country”.

What does this latest research mean for South Africa? Statistics South Africa reported that in 2021 2.6 million people had inadequate access to food and a further 1.1 million stated they had “severe” inadequate access to food. More than 683,000 children five years and younger experienced hunger.

This toxic mix requires prevention of TB by nutritional support, drugs to prevent TB infections and early diagnosis with molecular tests and treatment.

With high levels of food insecurity and undernutrition in South Africa, fuelled by the highest levels of inequality, it is critical that South Africa includes social benefits for people with TB and those in their households to reduce the prevalence of TB in the country and to meet the Sustainable Development Goals for 2030.

Regardless of how social benefits are distributed, action must be based on evidence. We need better tests, cures and vaccines for TB, but they alone cannot end the epidemic.  TB patients must be provided with the social benefits that they need and deserve, as a basic human right.

Courtesy: The Conversation

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