I made a bunch of mutual aid zines this summer and still can't get my folds straight, but here's my contribution to the September podcast zine fest! Image text under the cut.

Page 1: Wolf 359 + Terrible Space Facts

Page 2: Space is terrible. No one should go there. Here are just a few ways the reality of floating alone in the middle of nowhere is even worse than described for the crew of the Hephaestus station.

Page 3: "I'm going to drown? In outer space? What kind of sense does that even make?"

Not just a wacky podcast plot! Italian Luca Parmitano almost drowned on a space walk in 2013 due to a fan pump malfunction.

Page 4: "And that's how you [BLEEP] in space."

0g bathroom breaks aren't easy and luckily (?) NASA loves training. On Earth, astronauts practice on a toilet with a camera in the bowl so they can watch themselves from an... unconventional angle.

Page 5: "Doctor Selberg took the cast off today. Looks like my arm's healing well."

0g is worse on bones than osteoporosis. Chances are Lovelace's arm never healed right, which may have contributed to her use of pain pills.

Page 6: "We're getting hit by another wave of radiation."

The atmosphere protects us from cosmic radiation, but less so as it gets thinner. Astronauts (and flight attendants!) are considered radiation workers. Several ISS astronauts have developed skin cancer.

Page 7: "I did mention the 'so you don't get poisoned' aspect, right?"

In cases of ammonia exposure, astronauts are instructed to remove all (potentially contaminated) clothing before moving to a safe area. A potential other reason everyone is cranky in "Constructive Criticism".

Page 8: Want more #terrible space facts? Visit www.clonerightsagenda.tumblr.com/tagged/terrible space facts for my full collection.

Le stelle ci guardano

Una nuova categoria di infotainment: gli scienziati che vanno in orbita e ci mostrano come fanno la pipì, poi come si fanno i peli del naso, poi quelli del pube. Non è colpa loro, glielo dice la NASA di farlo, per contratto. Arriveremo ai porno girati in orbita. Tutte quelle goccioline in sospensione, non farmici pensare, ci vorrebbe un tubo. Le stelle ci guardano. La NASA non camperebbe senza un po' di circo, sossoldi. Gli astronauti lo fanno in piedi, una manna per l'ernia al disco. Nuove posizioni: la carriola perpetua, la forbice volante, la pecorina elettrica. Ah ma lavorano anche, piantano fagioli a gravità zero per vedere se crescono al contrario. Noi abbiamo quella scienziata, quella coi capelli dritti, è brava. Anche Parmitano, che ha portato il parmigiano. Eccellenze italiane in orbita, roba da farci una ventina di cinegiornali regionali, Bonaccini tutto gasato. Se lo gasi ancora un po' arriva in orbita senza bisogno dell'astronave. Comunque, adesso possiamo guardare fino ai limiti dell'universo, ci sono ancora galassie, ma a qualcuno viene il dubbio che siano sempre quelle che stiamo guardando, ripiegate su se stesse, lo fanno apposta. Si divertono, le stronze. Non gliene frega niente che ci vuole tutto quel carburante per mandare in orbita i telescopi, se la ridono. Comunque adesso Astrosamantha inventa un carburante potentissimo che non inquina estratto dalla radice del sedano, una pianta inutile, che è stata sostituita dal dado. Da grandi tutti volevano fare gli astronauti, io il consulente ecobonus, ma mi han detto che ci vuole la laurea in scienze politiche. Ai filosofi propongono invece posti da bidelli. Se sai fare i nodi marinari ti assume Elon Musk per chiudere gli sportelli del Dragon. Che bello lo spazio, però è faticoso da pulire.

As NASA continues to pursue new human missions to low Earth orbit, lunar orbit, the lunar surface, and on to Mars, the NESC continues to provide a robust technical resource to address critical challenges. The NESC Environmental Control and Life Support Systems (ECLSS), Crew Systems, and Extravehicular Activity (EVA) discipline is led by the NASA Technical Fellow for ECLS, Dr. Morgan Abney, ECLSS & Crew Systems Deputy Dave Williams, Extravehicular & Human Surface Mobility Deputy Danielle Morris, and EVA Deputy Colin Campbell. In 2023, this team led assessments and provided support to the Commercial Crew Program, ISS, Orion Multi-Purpose Crew Vehicle, Extravehicular and Human Mobility Program, Gateway International Habitat, and Moon-to-Mars Program. Three of the most notable activities in 2023 are briefly described below. Mitigation for Water in the Helmet During EVA During EVA22 in 2013, water was observed in the helmet and assumed to be the result of a “burp” from the drink bag. No further investigation was pursued because water had been observed to some degree (water on visor, wet hair, etc.) on eight previous occasions. The result was a nearly catastrophic event during EVA23, where astronaut Luca Parmitano experienced dangerous quantities of water in his helmet. Both EVA23 and EVA35 in 2016 contributed to identification of drowning as a key risk, which resulted in several water mitigation approaches. Based on these approaches, the program determined the risk level to be acceptable for nominal EVA. However, in March 2022, a crewmember returning from EVA80 noticed water accumulated on the visor of his helmet obstructing ~30-50% of his field of view. Due to the increasing complexity of EVA objectives on EVA80 and forward, the ISS Program identified loss or reduction of visibility as a greater risk than previously recognized and sought to identify methods to prevent even small quantities of liquid water from forming in the helmet during EVA. The NESC was asked to provide support to the activity through modeling of the helmet and two-phase (water and oxygen) flow behavior in microgravity, through model validation testing, and through testing of mitigation hardware identified by the larger team. The model predictions provided a map (Figure 1) of anticipated liquid water formations based on the contact angle between the face or head and the helmet surface. Based on the ISS helmet with no water mitigations, the model predicted that large blobs would most likely form bridges between the helmet and face and that rupture of those bridges would result in the majority of liquid transferring to the face. To mitigate this risk, the ISS EVA80 team devised a solution to add absorbent materials in the path of the oxygen and water entering the helmet. Following EVA23, the helmet absorption pad (HAP) was added for bulk water collection. The improved mitigation strategy based on EVA80 included a HAP extender (HAP-E) and a helmet absorption band (HAB) (Figure 2). The NESC provided modeling of the mitigation hardware and validation testing of the HAB configuration using flow conditions anticipated in ISS operation (Figure 3). The testing provided ground validation of the HAB performance. The HAB and HAP-E have both been implemented in flight. Figure 1. Map of predicted water formations within a helmet as a function of face/head and helmet contact angles. Dashed rectangle indicates the expected domain of the ISS helmet with no water mitigations.  Figure 2. Water mitigation strategy for the ISS helmet: a) sketch of HAP, HAP-E, and HAB, b) side view of early prototype, c) bottom view of early prototype.  Figure 3. HAB ground validation testing under trickle water flow conditions. Evaluation of Terrestrial Portable Fire Extinguishers for Microgravity Applications  The tragic fire of Apollo 1 has, of necessity, instilled in NASA an enduring respect for the risk of fire in spacecraft. As such, robust fire detection and response systems have been a cornerstone of NASA-designed vehicles. Portable fire extinguishers (PFE) are a fundamental fire response capability of spacecraft and both carbon dioxide and water-based PFEs have been used by NASA historically. However, terrestrial-based PFEs, particularly those using new halon-based suppressants, may provide improved capability beyond the NASA state-of-the-art. In 2023, the NESC sought to evaluate the effectiveness of commercial-off-the-shelf (COTS) PFEs in microgravity. The team developed an analytical model to predict the discharge rate of three terrestrial COTS PFEs containing CO2, HFC-227ea, and Novec 1230. The model considered the internal geometry of the PFEs, the material properties of the suppressants and their corresponding PFE tanks, and the effects of microgravity and in-flight perturbations. The results predicted that for PFE tanks containing dip tubes, like those for HFC-227ea and Novec 1230 where nitrogen gas is used as a pressurant, microgravity plays a significant role in the discharge performance due to two-phase flow. Figure 4 shows the various equilibrium configurations based on gravity and perturbations. As a comparison, the analysis predicts >80% discharge of the HFC-227ea in the COTS PFE within ~30 seconds with the remainder discharging over ~0.5-1 hours when discharged in a terrestrial fire (Figure 4A), while only 60-80% discharges in 30 seconds with the remainder discharging over 1-2 hours in microgravity (Figure 4C).  Figure 4. Equilibrium two-phase configurations of nitrogen (white)-pressurized liquid suppressant (blue). A) PFE held nominally with nozzle up in 1-g with no perturbations, B) PFE held inverted in 1-g or in 0-g where liquid preferentially accumulates away from the dip tube entrance with no perturbations, C) PFE in 0-g at the statistically most probable state with no perturbations, D) PFE in 0-g where nitrogen preferentially accumulates at ends of the PFE with no perturbations, E) PFE in any level gravity with significant perturbations (shaken up), and F) statistically most probable state in 0-g following complete discharge. Based on this analysis, the use of terrestrially designed PFEs containing gaseous pressurant over a liquid suppressant will likely result in decreased initial discharge of the suppressant and significantly longer total discharge times in microgravity as compared to terrestrial discharge performance. Testing is ongoing to validate the models using a custom-designed PFE test stand (Figures 5 and 6) that enables multi-configuration testing of COTS PFEs.  Figure 5. (left) PFE test stand for model validation. Design prevents directional load effects to enable accurate mass measurement during PFE discharge. Figure 6. (right) Insulated PFE housing and remote discharge control allows for accurate, real-time thermal measurements during validation testing. Standardized Abrasion, Cut, and Thermal Testing for Spacesuit Gloves and Materials   State-of-the-art spacesuit gloves have been optimized for the challenges of ISS. Artemis missions call for high-frequency EVAs at the lunar south pole, where temperatures in the permanently shadowed region (PSR) will expose crew gloves to temperatures lower than ever previously experienced and where frequent and repeated exposure to regolith dust and rocks will present significantly increased risk for abrasion and cuts. With the development of new spacesuits by commercial partners, inexpensive and repeatable test methods are needed to characterize, evaluate, and compare gloves and glove materials for their thermal performance at PSR temperatures and for their resistance to lunar regolith abrasion and cuts. To address these needs, the NESC is leading a team to develop standardized test methods in coordination with ASTM International Committee F47 on Commercial Spaceflight.   Three standardized methods are currently in development. The first method seeks to standardize lunar dust abrasion testing of glove (and suit) materials based on adapted “tumble testing” first proposed at NASA in 1990. The NASA-designed tumbler (Figure 7) enables testing of six samples per run and compares pre- and post-tumbled tensile strength of materials to compare abrasion resistance. The method is highly controlled using a commercially available tumble medium and lunar regolith simulant.   Because material properties change with temperature, the second method seeks to develop a standardized approach to evaluate the cut resistance of glove materials at relevant cryogenic temperatures. The method is an adaptation of ASTM F2992 Standard Test Method for Measuring Cut Resistance of Materials Used in Protective Clothing with Tomodynamometer (TDM-100) Test Equipment. In order to allow for cut evaluation at cryogenic temperatures, the TDM-100 cut fixture was modified to include channels for liquid nitrogen flow (Figure 8A), thereby cooling the test material to 77 K.  Figure 7. Hardware used in the tumble test method. Tumbler apparatus (left). Tumbler with panel removed to show lunar regolith simulant and commercially available tumbler media (top right). Tumbler panel showing lunar regolith simulant (bottom right). The third method seeks to evaluate the thermal performance of gloves down to PSR requirement temperature of 48 K. Historical thermal testing of gloves was conducted with human-in-the-loop (HITL) testing for both radiative and conductive cooling. Conductive cooling was accomplished by having the test subject grab thermally controlled “grasp objects” and maintain contact until their skin temperature reached 283 K (50 ºF) or until they felt sufficient discomfort to end the test themselves. While HITL testing is critical for final certification of gloves, iterative design and development testing would benefit from a faster, less expensive test. To meet this need, the NESC is developing a glove thermal test that uses a custom manikin hand designed by Thermetrics, LLC (Figure 8B).  Figure 8. A) Mandrel used in cut testing as designed for ambient testing (left) and cryogenic testing (right). Flow channels allow for liquid nitrogen flow to cool the material sample to cryogenic temperatures. B) Prototype of Thermetrics, LLC custom manikin hand for spacesuit glove thermal testing. The manikin hand is outfitted with temperature and heat flux sensors to monitor heat transfer to the hand. The hand is placed within a spacesuit glove and thermally controlled with internal water flow to simulate human heat generation. The Cryogenic Ice Transfer, Acquisition, Development, and Excavation Laboratory (CITADEL) chamber at JPL is then used to test the glove thermal performance at a range of temperatures from 200 K down to 48 K. Thermal performance is evaluated to mimic historical HITL testing under both radiative and conductive cooling. Conductive cooling is accomplished through a temperature-controlled touch object and is evaluated using two touch pressures. All three methods will be incorporated as ASTM F47 standard test procedures following NASA and ASTM committee review and approvals (targeting 2024).   ASA astronaut and Expedition 68 Flight Engineer Nicole Mann is pictured in her Extravehicular Mobility Unit (EMU) during an EVA. The NESC has recently contributed to astronaut safety investigations of water accumulating in EMU helmets during EVAs, and developing EMU gloves for use in the harsh conditions of the lunar south pole.

Spazio, il 2024 sara' un anno cruciale per l'Italia

Attesa la legge che regolera’ il settore. Parmitano: “Nostro il 50% dei moduli della Iss”source

View On WordPress

Milano: il Wired Next Fest torna al Castello Sforzesco il 6,7 e 8 ottobre

Milano: il Wired Next Fest torna al Castello Sforzesco il 6,7 e 8 ottobre. Torna a Milano il 6, 7 e l'8 ottobre il Wired Next Fest, il più grande evento a partecipazione gratuita in Italia dedicato all'innovazione e alle tecnologie digitali. Il Festival, che quest'anno compie il suo decimo anniversario, è interamente dedicato all'Italia, al racconto di come il nostro Paese sta costruendo il suo futuro, mettendo al centro i territori e la loro capacità di connettersi con il mondo. Un racconto che si declinerà grazie a 151 ospiti protagonisti di 106 eventi su 3 palchi, 7 exhibit, 12 live performance, 40 workshop e 32 ore di live streaming. Durante le tre giornate gli spazi e il cortile del Castello Sforzesco ospiteranno incontri, exhibition, live performance, workshop, laboratori e molto altro. Un ricco parterre di ospiti italiani e internazionali si confronterà sul ruolo dell'innovazione come strumento di crescita e benessere per l'Italia. Scienziati, tecnologi, economisti, grandi aziende, Pmi, start-up, artisti e intellettuali discuteranno di come - anche in un mondo globalizzato - le culture e le politiche locali siano in grado di influenzare i processi d'innovazione e la nascita di nuove tendenze. "La decennale storia del Wired Next Fest è fatta soprattutto di fisicità e di un rapporto stretto con il territorio e con le persone che lo vivono. Per questo, per un anniversario così importante, il festival è dedicato all'Italia, intesa come un luogo, seppur non uniforme, di innovazione che vede in Milano il suo centro principale", spiega Federico Ferrazza, direttore di Wired Italia. "In occasione del Wired Next Fest, Milano si riconferma un centro di innovazione e cultura su scala internazionale, capace di alimentare il dibattito e la discussione su temi attuali, dall'arte contemporanea al mondo dell'innovazione sociale e tecnologica" - ha dichiarato l'assessore alla Cultura del Comune di Milano Tommaso Sacchi - "Il Wired Next Fest celebra la connessione tra territori e innovazione, mettendo in evidenza la capacità del nostro Paese di bilanciare creatività e cultura, cambiamento e tradizione. Milano, e il Castello Sforzesco - che per la prima volta ospita il Festival - incarnano perfettamente questa dialettica, luoghi dove passato e futuro si intrecciano costantemente, dove la tradizione e l'innovazione entrano in perfetta sinergia." Tra gli ospiti confermati: Cory Doctorow, Drusilla Foer, Roberto Bolle, Rose Villain, Rocco Siffredi, Nayt, Amandeep Singh Gill, Venerus, Douglas Rushkoff, Elsa Fornero, Stefania Rocca, Francesco Costa, Nona Mikhelidze, Alberto Barbera, Becomedy UK, Jimmy Nelson, Anna Ascani, Gianluca Gazzoli, Luca Parmitano, Villabanks, Francesca Coin, Carlo Cottarelli, Alessio Boni, Raphael Gualazzi, Federica Cacciola, Federico Marchetti, Luca Ricolfi, Motta, Chiara Sbarigia, Turbo Paolo, Sofia Viscardi, Matteo Saudino, Brando Benifei, Cyber Partisans, Eshkol Nevo, Amalia Ercoli Finzi, Paolo Camilli e molti altri. Il Wired Next Fest, con il patrocinio del Comune di Milano e organizzato in collaborazione con Audi, è reso possibile anche grazie al supporto di alcuni partner.... #notizie #news #breakingnews #cronaca #politica #eventi #sport #moda Read the full article

Ser preaprobado primero puede ayudarlo(a) explorar cualquier problema potencial antes de firmar un contrato de compraventa de vivienda, ejemplo con un error en su informe de crédito. Es mejor lidiar con esto durante el proceso de su Preaprobación previa antes que cuando ya ha encontrado una vivienda. Déjenos saber sus preferencias de horarios cual podemos comunicarnos con usted y explicarle el proceso. Parmitanos guiarlo a través del proceso, para que pueda unirse a los miles de propietarios de vivienda felices que confían en KEYSTAR MORTGAGE GROUP 24/7

Eliud Cruz NMLS# 512094 LLAME OH ENVIE UN MESAJE

HOY :(407) 401.1185 ¡Entonces, Comencemos ahora!

Get Sarted ! www.keystarmtg.com

Anthea la nuova Astronauta

(Di Massimiliano Lussana – civiltadellemacchine.it) – C’era una volta – e c’è, fortissimamente c’è – Astrosamantha, diventata un personaggio con i suoi capelli diventati un meme con Moncicci, con i suoi collegamenti dallo spazio, con la sua simpatia contagiosa. Samantha Cristoforetti è nella galleria dell’Agenzia Spaziale Italiana insieme a Luca Parmitano, Paolo Nespoli, Roberto Vittori, Umberto…

View On WordPress

REACTION ALL'INTERVISTA DI PROGETTO HAPPINESS A LUCA PARMITANO

Studenti palermitani inviano cartoline nello spazio e partecipano a videoconferenza con Luca Parmitano

Studenti palermitani inviano cartoline nello spazio e partecipano a videoconferenza con Luca Parmitano

Read More Le cartoline, una volta completate, sono state inviate alle Blue Origin che le spedirà nello spazio a bordo del New Shepard (razzo suborbitale) per tornare poi sulla terra ed essere contrassegnate con un francobollo con la scritta Flown to space, “volato nello spazio”. The post Studenti palermitani inviano cartoline nello spazio e partecipano a videoconferenza con Luca Parmitano…

View On WordPress

Lucca Comics 2022: Evento "La Luna è una severa maestra. Bisogna fare i bravi" (Perri, Ortolani, Cozzi e Parmitano)

One giant leap for womankind! Two NASA astronauts made space history today (Oct. 18) as they completed the first-ever spacewalk by an all-woman team.

The historic extravehicular activity (EVA) began at 7:38 EDT (1138 GMT), which was ahead of schedule as the spacewalk was slated to begin at 7:50 EDT (1150 GMT). The spacewalk, which officially began once both astronauts switched to battery power in their spacesuits, was guided by veteran NASA astronaut and capsule communicator (CAPCOM) Stephanie Wilson on the ground and fellow astronauts Luca Parmitano and Andrew Morgan located on the International Space Station.

Today marks Koch's fourth spacewalk and Meir's first spacewalk. Koch led the EVA and can be identified by the red stripes on her spacesuit and life support backpack. Meir arrived at the space station in September, and both Koch and Meir joined NASA's astronaut corps in 2013. Their astronaut class, nicknamed the "Eight Balls," had the highest percentage of women of any group of astronaut candidates to date.

read more

Sunset over the Mediterranean and Greece seen from Space

“The alchemy of sunset turns the Mediterranean Sea into melted gold.”

Photo by ESA/NASA/Astronaut Luca Parmitano

Although no ghouls or goblins or trick-or-treaters come knocking at the International Space Station’s front hatch, crew members aboard the orbiting facility still like to get in the Halloween spirit. Whether individually or as an entire crew, they dress up in sometimes spooky, sometimes scary, but always creative costumes, often designed from materials available aboard the space station. Please enjoy the following scenes from Halloweens past even as we anticipate the costumes of the future. Left: Wearing a black cape, Expedition 16 NASA astronaut Clayton C. Anderson channels his inner vampire for Halloween 2007. Image credit: courtesy Clayton C. Anderson. Middle: For Halloween 2009, the Expedition 21 crew shows off its costumes. Right: Expedition 21 Flight Engineer NASA astronaut Nicole P. Stott shows off her Halloween costume. Left: Italian Space Agency astronaut Luca S. Parmitano finally gets his wish to fly like Superman during Expedition 37. Right: Who’s that behind the scary mask? None other than NASA astronaut Scott J. Kelly celebrating Halloween in 2015 during his one-year mission. Left: Expedition 53 Commander NASA astronaut Randolph J. “Randy” Bresnik showing off his costume. Middle: Expedition 53 Flight Engineer NASA astronaut Joseph M. Acaba wearing Halloween colors. Right: Expedition 53 European Space Agency astronaut Paolo A. Nespoli showing off his Spiderman skills. Left: Expedition 57 crewmembers in their Halloween best – European Space Agency astronaut and Commander Alexander Gerst, left, and NASA astronaut Serena M. Auñón-Chancellor. Right: Members of Expedition 61, NASA astronaut Christina H. Koch, top left, European Space Agency astronaut Luca S. Parmitano, NASA astronaut Andrew R. “Drew” Morgan, and NASA astronaut Jessica U. Meir, show off their Halloween spirit in 2019. Left: Expedition 66 crewmembers NASA astronaut R. Shane Kimbrough, left, Thomas G. Pesquet of the European Space Agency, Akihiko Hoshide of the Japan Aerospace Exploration Agency, and NASA astronaut Mark T. Vande Hei showing off their Halloween cards. Right: A hand rising from the grave? In October 2021, Crew-3 NASA astronauts Raja J. Chari, Thomas H. Marshburn, Kayla S. Barron, and Matthias J. Maurer of the European Space Agency (ESA), had some undisclosed plans for when they reached the space station just before Halloween. However, bad weather at NASA’s Kennedy Space Center in Florida thwarted those super-secret spooky Halloween plans, delaying their launch until Nov. 11. Undeterred, Expedition 66 crewmembers who awaited them aboard the station held their own Halloween shenanigans. ESA astronaut Thomas G. Pesquet posted on social media that “Strange things were happening on ISS for Halloween. Aki rising from the dead (or is it from our observation window?),” referring to fellow crew member Akihiko Hoshide of the Japan Aerospace Exploration Agency. Left: In 2022, Expedition 68 astronauts Koichi Wakata of the Japan Aerospace Exploration Agency, left, and NASA astronauts Francisco “Frank” C. Rubio, Nicole A. Mann, and Josh A. Cassada dressed as popular video game and cartoon characters, using stowage containers in their Halloween costumes and holding improvised trick-or-treat bags. Right: Expedition 70 astronauts Jasmin Moghbeli of NASA, left, Satoshi Furakawa of the Japan Aerospace Exploration Agency, NASA astronaut Loral O’Hara, and European Space Agency astronaut Andreas Mogensen celebrate Halloween 2023. The spookiness continues… Explore More 8 min read 25 Years Ago: STS-95, John Glenn Returns to Space Article 1 day ago 5 min read 25 Years Ago: Launch of Deep Space 1 Technology Demonstration Spacecraft Article 1 week ago 7 min read 30 Years Ago: The STS-58 Spacelab Life Sciences-2 Mission Article 2 weeks ago

A Messina laurea honoris causa a Parmitano, 'un grande onore'

“È un grandissimo onore, indipendentemente dal luogo di origine, ed è un piacere in più perché poter tornare nella mia terra, circondato dai miei concittadini, dà una gratificazione supplementare al riconoscimento del proprio lavoro. Ed è anche un’occasione per portare visibilità ad ambienti che magari non sono sempre in primo piano e che meritano perché hanno grandissime potenzialità”. Così Luca…

View On WordPress

World Environment Day: Focus dedica il palinsesto di lunedì 5 giugno all’Ambiente. In prima serata il programma con l’astronauta Luca Parmitano

World Environment Day: Focus dedica il palinsesto di lunedì 5 giugno all’Ambiente. In prima serata il programma con l’astronauta Luca Parmitano. Focus - in occasione della Giornata Mondiale dell’Ambiente - dalle ore 8.15 del mattino a sera inoltrata, dedica il palinsesto di lunedì 5 giugno al Pianeta: natura, biodiversità, bellezza, ma anche le fragilità cui la Terra, e la nostra stessa sopravvivenza, sono esposte. La prima serata è caratterizzata da una produzione originale della rete tematica Mediaset: Come sta il nostro Pianeta? Uno sguardo dall’alto, con Luca Parmitano. Parmitano, astronauta dell’ESA - Agenzia Spaziale Europea, è stato il primo italiano al comando della ISS, durante la missione Expedition 61. Il programma, di e con Luigi Bignami, è stato realizzato con il supporto scientifico e tecnico di ESA, CNR, ENEA, OGS. Molti, inoltre, gli interventi di studiosi ed esperti. In day-time, documentari BBC sui vari habitat del Pianeta, mettono a fuoco la situazione in cui versano montagne, deserti, oceani e grandi pianure. In particolare, dalle ore 18.15 alle 21.15, la programmazione si concentra su Patagonia, Borneo, Zambia. World Environment Day: dettaglio programmazione -  08:15 Adamello: il libro di ghiaccio - 09:15 Planet Earth II - Montagne - 10:15 Eden: pianeta selvaggio - Alaska - 11:15 Eden: pianeta selvaggio - Galapagos - 12:15 Planet Earth II - Jungla - 13:15 Eden: pianeta selvaggio - Namibia - 14:15 Il tesoro delle piante - 15:15 Planet Earth II - Città - 16:15 Planet Earth II - Deserti - 17:15 Planet Earth II - Praterie - 18:15 Eden: pianeta selvaggio - Patagonia - 19:15 Eden: pianeta selvaggio - Borneo - 20:15 Eden: pianeta selvaggio - Zambia - 21:15 Come sta il nostro Pianeta? - Uno sguardo dall’alto, con Luca Parmitano - 22:45 L’aereo che salverà il mare Come sta il nostro Pianeta?: studiosi ed esperti Stefano Caserini docente PoliMi, Ingegneria Civile e Ambientale, per la Mitigazione dei cambiamenti climatici; Florence Colleoni paleoclimatologa OGS, primo ricercatore alla sezione Geofisica; Franco Coren dirigente OGS, sezione Centro Gestione Infrastrutture Navali; Guglielmina Diolaiuti docente ESP dell’Università di Milano, per Geografia fisica, Climatologia e Glaciologia; Alcide Di Sarra ricercatore OEM dell’ENEA, Centro Ricerche Frascati; Massimo Frezzotti docente Università Roma Tre, Dip. di Scienze, Fisica e Geomorfologia, sezione Scienze geologiche; Filippo Giorgi climatologo ICTP, direttore sezione Scienze della Terra; Michele Rebesco dirigente di Ricerca OGS, sezione Geofisica; Gianmaria Sannino responsabile divisione CLIM di ENEA, Centro Ricerche Casaccia; Franco Sedmak comandante rompighiaccio OGS Laura Bassi; Antonella Senese climatologa e ricercatrice DESP dell’Università di Milano, settore Geografia Fisica e Geomorfologia.... #notizie #news #breakingnews #cronaca #politica #eventi #sport #moda Read the full article

Samantha non ti meritiamo!

Samantha non ti meritiamo!

[Tempo di lettura stimato: 6 minuti] Della vita privata di Jessica Watkins, in rete, non si trova nulla, ma sappiamo tutto sul marito di Samantha Cristoforetti. Probabilmente il nome di Jessica Watkins non farà scattare alcun campanello in molti di voi e in effetti anche io non avevo la minima idea di chi fosse, fino a poco tempo fa. Ho scoperto dell’esistenza di questa donna, insieme a quelle…

View On WordPress