Kosmik tadqiqotlar kelajagi - Future of space exploration

The kosmik tadqiqotlar kelajagi teleskopik o'rganishni ham, kosmosni fizik jihatdan o'rganishni ham o'z ichiga oladi robotlashtirilgan kosmik kemalar va insonning kosmik parvozi.

Quyosh tizimi haqida yangi ma'lumotlarni olishga yo'naltirilgan yaqin vaqtga mo'ljallangan fizik tadqiqotlar bo'yicha missiyalar milliy va xususiy tashkilotlar tomonidan rejalashtirilgan va e'lon qilingan. Keyinchalik doimiy va o'zini o'zi ta'minlashga imkon beradigan ilmiy postlarni yaratish uchun Oy va Marsga orbitali va qo'nish missiyalarini o'tkazish bo'yicha taxminiy rejalar mavjud. Keyingi tadqiqotlar boshqa sayyoralardagi ekspeditsiyalar va aholi punktlari hamda ularning qazib olinadigan va yoqilg'i quyish punktlarini, xususan asteroidlar kamarini tashkil etishni o'z ichiga oladi. Quyosh tizimidan tashqarida fizik tadqiqotlar yaqin kelajakda robotlashtiriladi.

Kosmik tadqiqotning afzalliklari

Asosiy maqola: Kosmik tadqiqotning afzalliklari

Insoniyat va alohida davlatlarning kosmosni o'zlashtirishga sarmoyalarini kiritish sababi 20-asrdan boshlab keskin o'zgargan Kosmik poyga. 1900-yillarning oxiridagi kosmik tadqiqotlar Sovet Ittifoqi va Qo'shma Shtatlar o'rtasidagi birinchi kosmik parvozga erishish uchun raqobat tufayli yuzaga keldi. Endi xususiy sektor va milliy hukumatlar yana kosmik tadqiqotlar uchun sarmoyalar kiritmoqdalar. Biroq, bu safar ular inson hayotini halokatli hodisalardan himoya qilish va kosmik resurslardan foydalanish bilan turtki berishdi.[1]

Kosmosni mustamlaka qilish

Asosiy maqola: Kosmik kolonizatsiya

Kosmik kolonizatsiya kosmik sayohatning samarali usullarini topish uchun asosiy foyda. Kosmik mustamlaka tarafdorlari kosmik kolonizatsiya sayyoraviy falokat sharoitida insoniyat tsivilizatsiyasining omon qolishini ta'minlash vositasi deb ta'kidlaydilar. Boshqa sayyoralarni kolonizatsiya qilish odamlarning tarqalishiga imkon beradi va shu bilan sayyoraviy falokat tufayli tirik qolish ehtimolini oshiradi. Oy yuzasida olib borilgan tadqiqotlar asosida tadqiqotchilar ushbu turdagi halokatli hodisalar har yarim million yilda bir marta sodir bo'lishini taxmin qilishmoqda. Bundan tashqari, kosmosdan qazib olinadigan qo'shimcha manbalarning mavjudligi odamlarning imkoniyatlarini kengaytirishi va jamiyat uchun katta foyda keltirishi mumkin. Ushbu resurslardan foydalanish va yuqori ifloslantiruvchi tarmoqlarni kosmosga ko'chirish erdagi chiqindilarni kamaytirishi va oxir-oqibat toza energiya manbalarini yaxshilab olib kelishi mumkin. Biroq, ko'pchilik kosmik kolonizatsiyaga qarshi chiqib, kosmosning tovarga aylanishidan xavotir bildirmoqda va urush va iqtisodiy tengsizlik kabi mavjud muammolarni davom ettirish imkoniyatini bildirmoqda. Hozir kosmik koloniyalar yo'q. Kosmosni mustamlaka qilishning asosiy to'siqlari texnologik va iqtisodiy muammolarni o'z ichiga oladi.[2]

Ko'pgina xususiy kompaniyalar kosmik sayohatlarni yanada samarali qilish uchun harakat qilmoqdalar, chunki kosmik sayohatning umumiy xarajatlarini kamaytirish va shu tariqa kosmik kolonizatsiya. SpaceX-ning chiqarilishi bilan samarali qidiruv ishlarini olib borishda etakchi o'rinni egalladi Falcon 9, qayta ishlatiladigan raketa.[3] NASA Artemis dasturi 2024 yilga kelib Oyga yana bir erkak va birinchi ayolni qo'ndirishni va 2028 yilgacha barqaror kosmik sayohatni yo'lga qo'yishni maqsad qilgan. Artemis dasturi NASAning Marsga qo'nishni yakuniy maqsadiga qadam qo'ygan toshidir. NASA har ikkala maqsadni amalga oshirishga imkon beradigan va oxir-oqibat odamlarga boshqa sayyorada uzoq muddatli mavjudligini o'rnatishga imkon beradigan samarali kosmik texnologiya yutuqlari haqida xabar beradi. Kosmosni mustamlaka qilish uchun odamlar barqaror energiya manbalaridan foydalanishlari kerak. Hozirda NASA Perovskit quyosh xujayralarining kosmosda energiya bilan ta'minlash imkoniyatlarini sinovdan o'tkazmoqda. Hozirgi muqobil, kremniy quyosh xujayralari bilan taqqoslaganda, Perovskit quyosh xujayralari nisbatan kam miqdordagi hujayralardan juda katta miqdorda energiya ishlab chiqaradi. Bundan tashqari, Perovskit quyosh xujayralari suyuq holda tashilishi mumkin, bu erdan kosmosga jo'natishda xavfsizlikni ta'minlaydi. Biroq, bu hujayralar mo'rt bo'lib, ular kosmos uchun asosiy energiya manbai sifatida o'rnatilishidan oldin qo'shimcha tadqiqotlar talab etiladi.

Kosmik tadqiqotlar

Asosiy maqola: Kosmik tadqiqotlar

Kosmosning noyob atributlari kosmonavtlarga er yuzida boshqacha tarzda amalga oshirib bo'lmaydigan izlanishlar olib borish imkoniyatini beradi. Bundan tashqari, kosmosning erga qarashining takrorlanmagan istiqboli olimlarga erning tabiiy muhiti to'g'risida ko'proq ma'lumot olishlariga imkon beradi. Xalqaro kosmik stantsiyada olib borilgan tadqiqotlar er yuzidagi insoniyat tsivilizatsiyalariga foyda keltirish va kosmik va kosmik tadqiqotlar atrofida inson bilimlarini kengaytirishga qaratilgan. Hozirda NASAning XKSdagi tadqiqotlari biomedikal tadqiqotlar, materialshunoslik, texnologiyalarni rivojlantirish va kosmosni yanada ko'proq o'rganish imkoniyatlarini o'z ichiga oladi.[4]

Anti va mikrogravitatsiya kosmonavtlarga tibbiy tadqiqotlar olib borishga imkon beradi, ular yer yuzida amalga oshirilmaydi. Masalan, NASA tomonidan Duchenne Muscular Distrophy kabi murakkab kasalliklarni davolashning yangi variantlari bo'yicha olib borilayotgan tadqiqotlar davolash eritmasidagi mikropartikullarning mustahkam turishiga imkon berish uchun mikrogravitatsiya muhitidan foydalanishni talab qiladi. NASA shuningdek, mikrobial vaktsinani ishlab chiqish va davolanishni maqsadli va samaraliroq etkazib berish uchun dori-darmonlarni mikrokapsulyatsiyalashga investitsiyalar haqida xabar berdi.[5] Xususiy kompaniyalar ham tadqiqot maqsadida Xalqaro kosmik stantsiyadan foydalanishni boshladilar. Techshot va nScrypt 2019 yilda Xalqaro kosmik stantsiyasiga 3D BioFabrication Facility-ni ishga tushirishdi. Ushbu qurilma mikrogravitatsiyani 3D bosma organlarga o'tkazadi va keyinchalik ularni ishlatish uchun erga qaytarilishi mumkin. Oxir oqibat, organlarni er yuzida bosib chiqarish mumkin emas, chunki mo'rt to'qima o'z og'irligi ostida qulaydi. Shuning uchun kosmik Techshot va nScrypt elementlaridan foydalanish kosmosdagi organlar va inson to'qimalarini bosib global organlar tanqisligini kamaytirishga qaratilgan.[6]

Ajratilgan vazifalar

Yulduzli yulduz

Asosiy maqola: Yulduzli yulduz

Breakthrough Starshot - bu tadqiqot va muhandislik loyihasi Ilg'or tashabbuslar kontseptsiyasini tasdiqlovchi parkini ishlab chiqish engil suzib yurish nomli kosmik kemasi StarChip,[7] ga sayohat qilish imkoniyatiga ega bo'lish Alpha Centauri yulduzlar tizimi 4.37 yorug'lik yillari uzoqda. U tomonidan 2016 yilda tashkil etilgan Yuriy Milner, Stiven Xoking va Mark Tsukerberg.[8][9]

Oy

5-chi

Asosiy maqola: 5-chi

Chang'e 5 robotdir Xitoy oyni qidirish qo'nish va namunani qaytarib berish vositasidan iborat missiya. U 2020 yilda ishga tushirilishi rejalashtirilgan,[10] ikkinchisining muvaffaqiyatsizligi sababli qoldirilganidan keyin Uzoq 5 mart uchirish vositasi 2017 yilda.[11] Chang'e 5 Xitoyning birinchi modeli bo'ladi namunaviy qaytish vazifasi, kamida 2 kilogramm oy tuprog'i va tosh namunalarini Yerga qaytarishni maqsad qilgan.[12] O'zining avvalgilariga o'xshab, kosmik kema ham Xitoy oy ma'budasi nomi bilan atalgan, Chang'e.

O'shandan beri bu oy namunasini qaytarish bo'yicha birinchi missiya bo'ladi Luna 24 1976 yilda va agar muvaffaqiyatli bo'lsa - buni amalga oshiradi Xitoy dan namunalarni qaytaradigan uchinchi mamlakat Oy. U boshlanadi Wenchang yo'ldoshi uchirilishi markazi Xaynan.

Ingichka

Asosiy maqola: Ingichka

Oyni tergov qilish uchun aqlli lander (SLIM) - bu oy qo'ndiruvchisi tomonidan ishlab chiqilmoqda Yaponiya aerokosmik tadqiqotlar agentligi (JAXA). Landing aniq qo'nish texnologiyasini namoyish etadi.[13] 2017 yilga kelib, qo'nish moslamasi 2021 yilda ishga tushirilishi kerak edi,[14][15] ammo keyinchalik bu SLIMning rideshare missiyasining kechikishi sababli 2022 yil yanvariga qoldirildi, XRISM.[16]

Artemis 1

Asosiy maqola: Artemis 1

Artemis 1[17] bu NASA uchun yaqinlashib kelayotgan parvoz sinovi Artemis dasturi bu agentlikning birinchi integral parvozidir Orion MPCV va Kosmik uchirish tizimi og'ir yuk ko'taruvchi raketa.

Ilgari Exploration Mission-1 (EM-1) nomi bilan tanilgan bo'lib, missiya joriy etilganidan keyin o'zgartirildi Artemis dasturi. Ishga tushirish manzili bo'lib o'tadi Kompleksni 39B ishga tushirish da Kennedi nomidagi kosmik markaz, bu erda 25.5 kunlik missiya bilan Orion kosmik kemasi yuboriladi, bu kunlarning 6 kunida a retrograd orbit atrofida Oy.[18] Missiya Orion va Space Launch System-ning ikkinchi parvoz sinovidan boshlangan ekipaj parvozlari uchun "Orion" kosmik kemasini va "Space Launch System" raketasini sertifikatlaydi, Artemis 2 2022 yil sentyabrda,[iqtibos kerak ] to'rt kishilik ekipajni Oy atrofida bir hafta davom etadigan missiyada va yig'ilishdan oldin qaytarib olib boradi Oy darvozasi 2022 yildan 2023 yilgacha bo'lgan oy orbitasida.

Mars

Rosalind Franklin

Asosiy maqola: Rozalind Franklin (rover)

Rosalind Franklin,[19] ilgari ExoMars rover nomi bilan tanilgan, rejalashtirilgan robot Marsda sayohat qiluvchi, xalqaro qism ExoMars boshchiligidagi dastur Evropa kosmik agentligi va ruscha Roskosmos davlat korporatsiyasi.[20][21]

Dastlab 2020 yilning iyulida ishga tushirilishi rejalashtirilgan, ammo roverning qo'nish mexanizmi bilan bog'liq sinovlar sababli kechiktirildi. Yangi ishga tushirish sanasi 2022 yil iyulga belgilangan.[22] rejada Rossiyaning raketa tashuvchisi, ESA tashuvchisi moduli va ismli rus qo'nuvchisi talab qilinadi Kazachok,[23] bu marshrutni Mars yuzasiga tarqatadi.[24] Xavfsiz qo'nganidan so'ng quyosh energiyasi bilan ishlaydi rover etti oydan boshlanadi (218-sol ) o'tmish mavjudligini izlash vazifasi Marsdagi hayot. The Gaz orbiterini kuzatib boring (TGO), 2016 yilda ishga tushirilgan bo'lib ishlaydi Rosalind Franklin's va landerning ma'lumot uzatish yo'ldoshi.[25]

Mars 2020

Asosiy maqola: Mars 2020
NASA uchun kompyuter dizayni chizmasi Qat'iylik rover

Mars 2020 a Marsda sayohat qiluvchi missiya NASA "s Marsni o'rganish dasturi bu o'z ichiga oladi Qat'iylik rover 2020 yil 30 iyulda soat 11:50 da UTC da ishga tushirilgan va rejalashtirilgan pastga tegishlidir Jezero krateri Marsda 2021 yil 18-fevralda.[26][27] Bu tekshiradi astrobiologik jihatdan Marsdagi qadimiy atrof-muhit va uning sirtini o'rganish geologik jarayonlar va o'tmishni baholashni o'z ichiga olgan tarix yashashga yaroqlilik, o'tmish ehtimoli Marsdagi hayot, va saqlab qolish uchun salohiyati biosignature mavjud bo'lgan geologik materiallar ichida.[28][29] Potentsial kelajak uchun u o'z yo'nalishi bo'yicha namunaviy konteynerlarni keshlaydi Mars namunasini qaytarish vazifasi.[29][30][31] Mars 2020 missiyasi 2012 yilning 4 dekabrida NASA tomonidan kuzgi yig'ilishda e'lon qilindi Amerika Geofizika Ittifoqi San-Frantsiskoda.[32] The Qat'iylik rover dizayni Qiziqish rover, va allaqachon ishlab chiqarilgan va sinovdan o'tgan ko'plab tarkibiy qismlardan foydalanadi, yangi ilmiy asboblar va a asosiy matkap.[33] Bundan tashqari, a vertolyot droni.

Mars Global masofadan zondlash orbiteri va kichik rover

Asosiy maqola: Mars Global masofadan zondlash orbiteri va kichik rover

Mars Global masofadan zondlash orbiteri va kichik rover (HX-1) - bu Xitoy tomonidan orbiter va roverni joylashtirish bo'yicha rejalashtirilgan loyihadir. Mars.[34] Missiyani 2020 yil iyul yoki avgust oylarida boshlash rejalashtirilgan[35][36] bilan Uzoq 5 mart og'ir yuk ko'taruvchi raketa.[37][38][39] Uning maqsadi hozirgi va o'tgan hayotning dalillarini izlash va sayyoramizning atrof-muhitini baholashdir.[40][41]

Mangalyaan 2

Asosiy maqola: Mars Orbiter Mission 2

Mangalyaan-2 deb nomlangan Mars Orbiter Mission 2 (MOM 2) Hindiston Ikkinchi sayyoralararo missiyasini boshlash rejalashtirilgan Mars tomonidan Hindiston kosmik tadqiqotlari tashkiloti (ISRO). Ba'zi bir xabarlarga ko'ra, missiya Marsning 2024 yilga taklif qilingan orbitasi bo'lishi kerak edi.[42] Biroq, 2019 yil oktyabr oyida yozib olingan intervyusida, VSSC direktori yo'lovchi va rover qo'shilishini ko'rsatdi.[43] Orbita foydalanadi aerobraking uning bosh harfini pasaytirish apoapsis va kuzatuvlar uchun mosroq orbitaga kiring.[44][45][46]

Umid qilamanki, Mars missiyasi

Asosiy maqola: Umid qilamanki, Mars missiyasi

Umid Mars Missiyasi - bu kosmik tadqiqotlar zond missiyasi Mars tomonidan qurilgan Birlashgan Arab Amirliklari 2020 yilda ishga tushirilishi rejalashtirilgan. Ishga tushirilgandan so'ng, u ko'pchilik arablar yoki musulmonlar yashovchi mamlakatlarning Marsga birinchi missiyasi bo'ladi. Prob probani o'rganadi Mars muhiti kundalik iqlim va mavsumiy tsikllar, atmosferaning quyi qismidagi chang bo'ronlari kabi ob-havo hodisalari, shuningdek Marsning turli geografik hududlaridagi ob-havo haqida batafsil ma'lumot bering. Tadqiqot ilmiy jamoatchilikning nima uchun Mars atmosferasi kosmosda vodorod va kislorodni yo'qotishi va Marsning keskin o'zgarishi sababi haqidagi savollarga javob berishga harakat qiladi.

Asteroidlar

Asosiy maqola: Asteroidlarni o'rganish

Ilmiy jurnaldagi maqola Tabiat kosmosni o'rganish uchun shlyuz sifatida asteroidlardan foydalanishni taklif qildi, yakuniy manzil esa Mars edi. Bunday yondashuvni hayotga tatbiq etish uchun uchta talabni bajarish kerak: birinchi navbatda, "astronoidlarning tashrifi uchun mos bo'lgan minglab yaqin jismlarni topish uchun asteroidlarni sinchkovlik bilan o'rganish"; ikkinchidan, "parvoz davomiyligi va masofa qobiliyatini tobora ko'payib borayotgan Marsgacha uzaytirish"; va nihoyat, "astronavtlarning kattaligi, shakli yoki aylanishidan qat'i nazar, asteroidni kashf etishlari uchun yanada yaxshi robotlashtirilgan vositalar va vositalarni ishlab chiqish". Bundan tashqari, asteroidlardan foydalanish astronavtlarga galaktik kosmik nurlardan himoya qiladi va missiya ekipajlari ularga radiatsiya ta'sirida katta xavf tug'dirmasdan qo'nishga imkon beradi.

Kosmik kemaning yurishi (yashil) Yupiter harakatsiz bo'lib turadigan ma'lumotnomada ko'rsatilgan. Lucy o'zining troyan maqsadlariga duch kelishdan oldin ikkita Yerga yaqin uchadigan samolyotlariga ega. 2033 yildan keyin Lyusi har olti yilda ikkita troyan bulutlari orasida velosiped haydashni davom ettiradi.

Lyusi

Asosiy maqola: Lyusi (kosmik kemasi)

Lyusi, NASA kashfiyot dasturining bir qismi bo'lib, oltitasini o'rganish uchun 2021 yil oktyabrda boshlash kerak Trojan Asteroids va a Asosiy kamar asteroidi. Yupiter oldida va orqasida joylashgan ikkita troyan to'dasi Yupiter yaqinidagi orbitaga tortilgan tashqi sayyoralar bilan bir xil materialdan yasalgan qorong'u jismlar deb o'ylashadi.[47] Lyusi troyan dasturlarini o'rganish bo'yicha birinchi missiya bo'ladi va olimlar ushbu topshiriqdan topilgan ma'lumotlar Quyosh tizimining shakllanishi haqidagi bilimlarimizni tubdan o'zgartirib yuboradi deb umid qilmoqda. Shu sababli, loyiha nomi berilgan Lyusi, insoniyat evolyutsiyasi to'g'risida tushuncha beradigan toshga aylangan hominid. O'rganilgan asteroidlar sayyora shakllanishining qadimgi qoldiqlari bo'lib, ular Yerdagi hayotning kelib chiqishi haqida ma'lumot olishlari mumkin edi.[48]

Ruh

Asosiy maqola: Psixika (kosmik kemasi)

The Ruh NASA kashfiyot dasturining bir qismi bo'lgan kosmik kemani 2022 yil oxirigacha uchirish rejalashtirilgan 16 Psixika, asteroid kamaridagi metall buyum.[49] 16 Psyche kengligi 210 km (210 km) bo'lib, u deyarli muz va tosh o'rniga temir va nikeldan tayyorlangan. Ushbu noyob kompozitsiya tufayli olimlar bu bir qator to'qnashuvlar natijasida tashqi ko'rinishini yo'qotgan sayyora yadrosining qoldiqlari deb hisoblashadi, ammo 16 Psyche faqat eritilmagan materialdir.[47] NASA sayyoralar paydo bo'lishi haqida ma'lumotni sayyoralar tanasining ochiq ichki qismini to'g'ridan-to'g'ri o'rganishdan oladi, aks holda buning iloji bo'lmaydi.[50]

OSIRIS-REx

Asosiy maqola: OSIRIS-REx

OSIRIS-REx (Origins, Spectral Interpretation, Resurs Identification, Security, Regolith Explorer) - bu NASA asteroidlarni o'rganish va namunani qaytarish vazifasi.[51] Missiyaning asosiy maqsadi - kamida 60 gramm (2,1 oz) dan namuna olish 101955 yil Bennu, a uglerodli Yerga yaqin asteroid va batafsil tahlil qilish uchun namunani Yerga qaytaring. Qaytgan material olimlar haqida ko'proq ma'lumot olishlariga yordam berishi kutilmoqda Quyosh tizimining shakllanishi va evolyutsiyasi, uning sayyora shakllanishining dastlabki bosqichlari va organik birikmalar ga olib keldi hayotning shakllanishi Yerda.[52] Muvaffaqiyatli bo'lsa, OSIRIS-REx asteroiddan namunalarni qaytaradigan birinchi AQSh kosmik kemasi bo'ladi. OSIRIS-REx bortida ishlatiladigan Lidar asbobini Kanad kosmik agentligi bilan birgalikda Lockheed Martin qurgan.[53][54]

OSIRIS-REx 2016 yil 8 sentyabrda ishga tushirilgan, 2017 yil 22 sentyabrda Yerdan uchib o'tgan va Bennu yaqiniga 2018 yil 3 dekabrda etib kelgan,[55] Keyingi bir necha oy ichida uning namunaviy maydoni uchun uning sirtini tahlil qilishni boshladi. U 2023 yil 24 sentyabrda Yerga o'z namunasi bilan qaytishi kutilmoqda.[56]

Gaz gigantlari

Sharbat

Asosiy maqola: Yupiter Icy Moons Explorer

JUpiter ICy moons Explorer (JUICE) - bu Evropa kosmik agentligi (ESA) tomonidan ishlab chiqilayotgan sayyoralararo kosmik kemadir. Airbus mudofaa va kosmik bosh pudratchi sifatida. Missiya tashrif buyurish uchun ishlab chiqilmoqda Jovian tizim Yupiterning uchtasini o'rganishga qaratilgan Galiley oylari: Ganymed, Kallisto va Evropa (vulkanik jihatdan faolroq bundan mustasno Io ) bularning barchasi o'zlarining sirtlari ostida suyuq suv havzalariga ega bo'lib, ularni hosil qiladi deb o'ylashadi potentsial yashashga yaroqli atrof-muhit. Kosmik kemaning parvozi 2022 yil iyunida amalga oshiriladi va beshdan keyin 2029 yil oktyabrida Yupiterga etib boradi tortishish kuchi yordam beradi va 88 oylik sayohat. 2033 yilga kelib, kosmik kema o'zining yaqin ilmiy vazifasini bajarishi va Yerning oyidan tashqari boshqa oyni aylanib chiqadigan birinchi kosmik kemasi bo'lishi uchun Ganimed atrofidagi orbitaga chiqishi kerak.

Evropa Clipper

Asosiy maqola: Evropa Clipper
Yupiter atrofidagi Europa Clipper traektoriyasining animatsiyasi

Evropa Clipper[57] (ilgari Europa Multiple Flyby Mission nomi bilan tanilgan) - bu sayyoralararo missiya NASA orbitadan iborat. 2025 yilda ishga tushirilishi rejalashtirilgan,[58] kosmik kemani o'rganish uchun ishlab chiqilmoqda Galiley oyi Evropa atrofida orbitada bo'lgan bir qator flybys orqali Yupiter.

Ushbu missiya Planetlar Ilmiy bo'limining rejalashtirilgan parvozi bo'lib, a Katta strategik ilmiy missiya, va ostida moliyalashtiriladi Planet Missions dasturining ofisi Quyosh tizimini o'rganish dasturi o'zining ikkinchi parvozi sifatida.[59][60] Bundan tashqari, yangi tomonidan qo'llab-quvvatlanadi Okean olamlarini o'rganish dasturi.[61] Evropa Clipper tomonidan o'tkazilganlarga keyingi tadqiqotlarni o'tkazadi Galiley Evropaning muz qobig'i ostida er osti okeanining mavjudligini ko'rsatadigan Yupiter orbitasida bo'lgan sakkiz yillik faoliyati davomida kosmik kemalar. Evropaga kosmik kemani yuborish rejalari dastlab shu kabi loyihalar bilan o'ylab topilgan Evropa Orbiter va Yupiter Icy Moons Orbiter, unda kosmik kemasi Evropa atrofidagi orbitaga yuboriladi. Ammo, tufayli radiatsiyaning salbiy ta'siri Yupiterning magnitosferasi Evropa orbitasida kosmik kemani Yupiter atrofidagi elliptik orbitaga kiritish va uning o'rniga oyning 45 ta yaqin uchishini amalga oshirish xavfsizroq deb qaror qilindi. Missiya o'rtasidagi qo'shma tekshiruv sifatida boshlandi Reaktiv harakatlanish laboratoriyasi va Amaliy fizika laboratoriyasi.

Yutuq Enceladus

Asosiy maqola: Yutuq Enceladus

Breakthrough Enceladus - bu astrobiologiya hayot imkoniyatini o'rganish uchun kosmik zond missiyasining kontseptsiyasi Saturn oy, Enceladus.[62] 2018 yil sentyabr oyida NASA missiya konsepsiyasini birgalikda yaratish uchun Breakthrough bilan hamkorlik shartnomasini imzoladi.[63] Ushbu missiya xususiy moliyalashtirilgan birinchi chuqur kosmik missiya bo'ladi.[64] Bu chiqadigan shlaklarning tarkibini o'rganadi Enceladning iliq ummoni uning janubiy muz qobig'i orqali.[65] Enceladning muz qobig'ining qalinligi taxminan ikki-besh kilometr atrofida,[66] va proba ishlatishi mumkin muzga kiruvchi radar uning tuzilishini cheklash.[67]

Kosmik teleskoplar

CHEOPS

Asosiy maqola: CHEOPS

CHEOPS (Xarakterli Exoplanets Satellite) - rejalashtirilgan Evropa kosmik teleskop shakllanishini o'rganish uchun tashqi sayyoralar. CHEOPS-ni ishga tushirish oynasi 2019 yilning to'rtinchi choragidir.[68]

Missiya optikani olib kelishga qaratilgan Ritchey-Chretien teleskopi standart kichik sun'iy yo'ldosh platformasida o'rnatilgan 30 sm diafragma bilan Quyosh sinxron orbitasi taxminan 700 km (430 milya) balandlikda. Rejalashtirilgan topshiriqning 3,5 yil davom etishi uchun CHEOPS ma'lum bo'lgan narsalarni tekshirishi kerak tranzit yorqin va yaqin yulduzlar atrofida aylanib yuradigan ekzoplanetalar.[69]

PLATO

Asosiy maqola: PLATO

Yulduzlarning sayyora tranzitlari va tebranishlari (PLATO) - bu a kosmik teleskop tomonidan ishlab chiqilmoqda Evropa kosmik agentligi 2026 yilda ishga tushirilishi uchun.[70] Maqsadning maqsadi sayyoralarni qidirishdir tranzitlar bir milliongacha yulduzlar bo'ylab va kashf qilish va tavsiflash uchun toshli tashqi sayyoralar atrofida sariq mitti yulduzlar (biznikiga o'xshab quyosh ), bo'ysunuvchi yulduzlar va qizil mitti yulduzlar. Missiyaning ahamiyati suvga o'xshash holatda bo'lishi mumkin bo'lgan quyoshga o'xshash yulduzlar atrofidagi yashash zonasidagi yerga o'xshash sayyoralarga qaratilgan.[71] Bu ESA-dagi uchinchi o'rta sinf missiyasi Kosmik tuyulgan dasturi va nufuzli yunon faylasufi nomi bilan atalgan Aflotun, G'arb falsafasi, fan va matematikaning asoschisi. Missiyaning ikkilamchi maqsadi - yulduz massalari va evolyutsiyasini o'lchash uchun yulduz tebranishlarini yoki yulduzlardagi seysmik faollikni o'rganish va sayyora mezbon yulduzini, shu jumladan uning yoshini aniq tavsiflashga imkon berish.[72]

Jeyms Uebbning kosmik teleskopi

Asosiy maqola: Jeyms Uebbning kosmik teleskopi

Jeyms Uebbning kosmik teleskopi (JWST yoki "Webb") a kosmik teleskop bu voris bo'lishi rejalashtirilgan Hubble kosmik teleskopi.[73][74] JWST Xabblga nisbatan yaxshilangan piksellar sonini va sezgirligini ta'minlaydi va ushbu sohalar bo'yicha keng ko'lamli tekshiruvlarni o'tkazishga imkon beradi. astronomiya va kosmologiya jumladan, ba'zi bir eng uzoq voqealar va ob'ektlarni kuzatish koinot kabi birinchi galaktikalarning shakllanishi. Boshqa maqsadlarga quyidagilarni tushunish kiradi yulduzlarning paydo bo'lishi va sayyoralar va to'g'ridan-to'g'ri ko'rish ning ekzoplanetalar va novalar.[75]

JWSTning asosiy oynasi Optik teleskop elementi, yasalgan 18 olti burchakli oyna segmentlaridan tashkil topgan oltin - joylashtirilgan berilyum diametri 6,5 metr (21 fut; 260 dyuym) oynani hosil qilish uchun birlashtirilib, Xabblning 2,4 metrli oynasidan ancha kattaroq (7,9 fut; 94 dyuym). Da kuzatadigan Xabbldan farqli o'laroq ultrabinafsha yaqinida, ko'rinadigan va infraqizil yaqinida (0,1 dan 1 mkm) gacha bo'lgan spektrlarda JWST uzoqroq to'lqin uzunlikdagi ko'rinadigan nurdan tortib to past chastota diapazonida kuzatadi. o'rta infraqizil (0,6 dan 27 mkm) gacha, bu esa uni yuqori darajada kuzatishga imkon beradi qizil siljish Xabblni kuzatish uchun juda eski va juda uzoq bo'lgan narsalar.[76] Infraqizil nurni shovqinsiz kuzatish uchun teleskopni juda sovuq tutish kerak, shuning uchun u Yer-Quyosh yaqinidagi kosmosda joylashadi. L2 Lagranj nuqtasi va katta quyosh nurlari qilingan kremniy - va alyuminiy - qoplangan Kapton uni saqlab qoladi oyna va 50 K dan past bo'lgan asboblar (-220 ° C; -370 ° F).[77]

Ekipaj vazifalari

Tijorat ekipajni rivojlantirish

Asosiy maqola: Tijorat ekipajni rivojlantirish

Tijorat ekipajni rivojlantirish (CCDev) bu a insonning kosmik parvozi tomonidan moliyalashtiriladigan rivojlanish dasturi AQSh hukumati va tomonidan boshqariladi NASA. CCDev natijasida AQSh va xalqaro astronavtlar uchib ketishadi Xalqaro kosmik stantsiya (ISS) xususiy boshqariladigan ekipaj vositalarida.

Astronavtlarni uchish bo'yicha operatsion shartnomalar 2014 yil sentyabr oyida tuzilgan SpaceX va Boeing.[78] Ning sinov parvozlari Dragon 2 va CST-100 2019 yilga rejalashtirilgan.[79] Namoyish parvozlari tugaguniga qadar har bir kompaniya 2019 yildan 2024 yilgacha XKSga oltita reys etkazib berishi shart.[80] Birinchi astronavtlar guruhi 2018 yil 3 avgustda e'lon qilindi.[81]

Artemis dasturi

Asosiy maqola: Artemis dasturi

Artemis dasturi doimiy ravishda amalga oshiriladi ekipaj kosmik parvoz dasturi tomonidan amalga oshirildi NASA, BIZ. tijorat kosmik parvozlar kompaniyalari kabi xalqaro sheriklar ESA,[82] Oyga "birinchi ayol va keyingi erkak" tushish maqsadida, xususan Oy janubidagi qutb 2024 yilga qadar Artemis Oyda barqaror mavjudlikni o'rnatish, xususiy kompaniyalar uchun Oy iqtisodiyotini barpo etish va oxir-oqibat odamlarni yuborish uchun uzoq muddatli maqsadga erishish uchun keyingi qadam bo'ladi. Mars.

2017 yilda Oy kampaniyasi tomonidan vakolat berilgan Kosmik siyosat bo'yicha ko'rsatma 1 kabi turli xil doimiy kosmik kemalar dasturlaridan foydalangan holda Orion, Oy darvozasi, Tijorat oy yuklarini ko'tarish bo'yicha xizmatlar va rivojlanmagan ekipaj qo'riqchisini qo'shish. The Kosmik uchirish tizimi Orion uchun asosiy raketa bo'lib xizmat qiladi, tijorat raketalaridan esa aksiyaning boshqa elementlarini ishga tushirish uchun foydalanish rejalashtirilgan.[83] NASA 2020 moliya yili uchun Artemis uchun 1,6 milliard dollar qo'shimcha mablag 'talab qildi,[84] Senatning mablag 'ajratish bo'yicha qo'mitasi NASAdan besh yillik byudjet profilini so'radi[85] tomonidan baholash va tasdiqlash uchun zarur bo'lgan Kongress.[86][87]

Lockheed Martin Orion

Asosiy maqola: Lockheed Martin Orion kosmik kemasi

Lockheed Martin ekipajni Xalqaro kosmik stantsiyaga Space Launch System (SLS) raketasi yordamida etkazib berish uchun ko'p maqsadli ekipaj vositasini ishlab chiqdi. Dizayn juda katta bo'lib, umumiy massasi 33,446 kg ni tashkil etdi, ammo parvoz muddati 21,1 kunni tashkil etdi. NASA Constellation dasturi doirasida yaratilgan dizayn taklifi Evropa xizmat ko'rsatish moduli bilan birgalikda Orion kosmik kemasini yaratish uchun ishlab chiqilgan. 2006 yilda NASA tomonidan Northrop Grummanni mag'lub etgan dizayn tanlanganidan beri uchishga tayyor bo'lgan Orion kosmik kemasi uchirilmoqda va 2014 yilda bitta muvaffaqiyatli uchish amalga oshirildi. Bugungi kunga qadar kosmik kemadan foydalanib amalga oshirilgan eng uzoq parvoz 5 daqiqani tashkil etdi. rejalashtirilgan Artemis 3 missiyasi transport vositasining 30 kunlik dizaynini sinab ko'rishga intiladi. "Orion" kosmik kemasi dizaynining birinchi ishlab chiqarilishi Artemis III birinchi ayol va keyingi erkakni 2024 yilda Oyga olib boradi. [88]

SpaceX Starship

Asosiy maqola: SpaceX Starship

SpaceX Starship kosmik kemasi sifatida rejalashtirilgan ikkinchi bosqich a qayta ishlatiladigan raketa. Kontseptsiya ishlab chiqilmoqda SpaceX, kabi xususiy kosmik parvoz loyiha.[89] U uzoq muddatli bo'lishi uchun ishlab chiqilgan yuk - va yo'lovchi - kosmik kemalarni olib yurish.[90] Dastlab u o'z-o'zidan sinovdan o'tkazilsa ham, undan foydalaniladi orbital uchirishlar qo'shimcha bilan kuchaytirgich bosqichi Super Heavy, bu erda Starship a-ning ikkinchi bosqichi bo'lib xizmat qiladi ikki bosqichli orbitaga uchirish vositasi.[91] Kosmik kemalar va booster kombinatsiyasi Starship deb ham nomlanadi.[92]

SpaceX Crew 1

Asosiy maqola: SpaceX Crew 1

180 kunlik missiya dastlab 2012 yilda tushlik kunida rejalashtirilgan edi. U apparat namoyishida va operatsion parvoz missiyalarida muvaffaqiyatli qoldirilgunga qadar qoldirilgan edi. 2020 yil 16-noyabrda ishga tushirilgan SpaceX Crew 1 Mission - bu Crew Dragon Demo-2 missiyasi va transport vositasini NASA tomonidan sertifikatlashidan keyin ekipajning ikkinchi ekipaj orbital parvozi. Uchish NASA-ning tijorat ekipaj dasturi doirasida Xalqaro kosmik stantsiyaga tez uchish va sinovdan o'tkazish uchun mo'ljallangan birinchi to'liq ekipaj parvozi bo'lib xizmat qildi. Bortdagi ekipaj NASA-ning uchta astronavti va bitta yapon astronavti bo'lib, SpaceX Falcon 9 raketasini uchirgan.

SpaceX Crew 2

Asosiy maqola: SpaceX Crew 2

Crew Dragon kapsulasining ekipajdagi operatsion parvozi ekipajning uchinchi umumiy orbital parvozi bo'lib xizmat qiladi. Ayni paytda 2021 yil 30 martda ishga tushirilishi rejalashtirilgan missiyada SpaceX Crew 1 missiyasi tugagandan so'ng va Crew Dragon Endeavour kapsulasi yangilanganidan so'ng NASA ning ikkita astronavti, bitta yapon astronavti va Evropa kosmik agentligi astronavti bilan 210 kunlik missiya tafsilotlari. Crew Dragon Demo-2 missiyasi.

Boeing Crew parvoz sinovi

Asosiy maqola: Boeing Crewed parvoz sinovi

Boeing Crew Parvoz sinovi Atlas V Rocket raketasi ustiga uchadigan Boeing Starliner ekipaj kapsulasini va birinchi ekipaj kosmik kemasini sinovdan o'tkazish bo'yicha birinchi missiya bo'lib xizmat qiladi. Hozirgi ishga tushirish sanasi 2021 yil iyuniga belgilangan va ikki haftadan olti oygacha davom etadi. Ekipaj tarkibiga uchta NASA astronavti kiradi, ulardan biri Amerika kosmik kemasi ekipaji sifatida xizmat qilgan birinchi ayol.

Boeing Starliner 1

Asosiy maqola: Boeing Starliner 1

Boeing Starliner 1 missiyasi Boeing Starliner-ning birinchi operatsion ekipaji va Starliner kosmik kemasini qayta ishlatish bo'yicha birinchi missiya bo'ladi. Missiya 2021 yil dekabridan oldin Atlas V raketasi yordamida to'rtta astronavt, uchta NASA astronavt va ehtimol Yaponiyadan, Kanadadan yoki Evropa kosmik agentligidan bitta xalqaro sherik-astronavtdan iborat ekipaj bilan uchishi kutilmoqda. Ushbu missiya ayol qo'mondon bilan AQShning to'rtinchi kosmik parvozi bo'ladi.

Tijorat ekipaj kapsulasini ishlab chiqish

Asosiy maqola: Tijorat ekipajni rivojlantirish

Tijorat ekipaj dasturi - bu kosmonavtlarni Xalqaro kosmik stantsiyaga olib kelish va qaytarish uchun mo'ljallangan insonning kosmik parvoz dasturi. SpaceX va Boeing NASA tomonidan NASA missiyalarini bajarish uchun dizaynlarni ishlab chiqish va sinovdan o'tkazish uchun asosiy peshqadam sifatida tanlangan va kelajakda ekipajni xavfsiz, ishonchli va tejamkor transport ehtiyojlarini qondirish uchun davom etadi.[93] Marsga birinchi erkak va ayolni olib kelish uchun NASA tomonidan ishlab chiqilgan Artemis Missions-da, Orion kosmik kemasi tarkibida Lockheed Martin ekipaj kapsulasi mavjud.[94]

SpaceX ajdaho kapsulasi

Asosiy maqola: SpaceX Dragon 2

2020 yil 2-avgustda NASA astronavtlari bilan xalqaro sanoat kosmik stantsiyasiga birinchi tijorat ekipaj parvozini amalga oshirish uchun Dragon Crew kapsulasi ishga tushirildi.[95] Ushbu vazifa kosmik stantsiyada ilmiy tajribalar o'tkazish va transport vositalari uchun so'nggi sinov vazifasini bajarishi kerak bo'lsa, missiyaning muvaffaqiyati turli maqsadlar va ekipaj jamoalari uchun kelajakdagi missiyalar uchun imkoniyatni kengaytiradi.

Boeing Starliner kapsulasi

Asosiy maqola: Boeing Starliner

Bo'lim Starliner Lockheed Martin-ning Orion kosmik kemasidan 13000 kg gacha bo'lgan biroz kichikroq dizayn - bu Xalqaro kosmik stantsiyaga ekipajni etkazib berish uchun yaratilgan kosmik kemaning yana bir o'zgarishi, bu safar NASA-ning tijorat ekipaj dasturi. Kapsül 7 kishigacha bo'lgan ekipajning yuqori quvvatiga ega, ammo parvoz muddati atigi 60 soat bo'lgan juda qisqa dizayn muddati. Dizayn o'zgarib turdi, chunki u qayta ishlatilishi mumkin bo'lgan kosmik kemasi edi, u 10 marta qayta ishlatilishi mumkin bo'lgan otishni tiklashni emas, balki erga qo'nish xususiyatiga ega edi.[96] Dizayn taklifi NASA tomonidan 2014 yilda SpaceX-ning Crew Dragon bilan birgalikda Artemis Missions uchun ekipaj kapsulasi sifatida tanlangan. Oxirgi dizayn ko'rib chiqilgandan buyon, Boeing Xalqaro kosmik stantsiyani bog'lash bilan bog'liq muammolarga duch keldi, ammo quruqlikka asoslangan zarbani muvaffaqiyatli isbotlay oldi. Hozirda 2021 yilning iyulida transport vositasi uchun yana bitta qo'shimcha sinov parvozi rejalashtirilgan.

Chuqur kosmik tadqiqotlar bilan bog'liq cheklovlar

Hozirda kosmosni chuqur o'rganish uchun kelajakdagi imkoniyatlar mavjud[qachon? ] uchuvchisiz va uchuvchisiz kosmik tadqiqotlar kelajagini belgilaydigan texnik, amaliy, astronomik va insoniy cheklovlar to'plami tomonidan ushlab turiladi. 2017 yildan boshlab har qanday sun'iy zond sayohat qilgan eng uzoq - bu NASA missiyasi Voyager 1,[97] hozirda taxminan 13 milliard mil (21 milliard km), yoki Yerdan 19,5 yorug'lik soati uzoqda, eng yaqin yulduz esa 4,24 yorug'lik yili atrofida.

Texnik cheklovlar

Yaqin kelajakda kosmik parvozlar texnologiyasining, shu jumladan qo'zg'alish tizimlari, navigatsiya, resurslar va saqlashning hozirgi holati, insoniyatning kosmik tadqiqoti rivojlanishining barcha cheklovlari.

Masofalar

Biz bilan eng yaqin yulduzlar orasidagi masofaning astronomik tartibi kosmik tadqiqotlarning hozirgi rivojlanishi uchun qiyin. Bizning soatiga 157,100 mil (252,800 km / soat) tezlikda Helios 2 zond eng yaqin yulduzga etib boradi, Proksima Centauri, taxminan 18000 yil ichida,[98] inson umridan ancha uzoqroq va shuning uchun hozirda mavjud bo'lganidan ancha tez transport usullarini talab qiladi. Shuni ta'kidlash kerakki, bu eng yuqori tezlikka Oberth ta'siri bu erda kosmik kema Quyoshning tortishish kuchi bilan tezlashdi. Quyosh tizimidan eng tez qochish tezligi bu Voyager 1 17 km / s tezlikda.

Harakatlanish va yoqilg'i

VASIMR Plazma asosidagi harakatlantiruvchi dvigatel[99]

Harakatlanish nuqtai nazaridan asosiy qiyinchilik ko'tarilish va boshlang'ich impulsdir, chunki bo'shliq vakuumida ishqalanish bo'lmaydi. Vazifalar, shu jumladan masofa, yuk va parvoz vaqti kabi omillarga asoslanib, ishlatilgan, foydalanishni rejalashtirgan yoki dizayndagi qo'zg'aysan qo'zg'atuvchisi turi kimyoviy yonilg'i quyish vositalaridan farq qiladi, masalan, vodorod va oksidlovchi[100] (Space Shuttle asosiy dvigateli ), plazma[99] yoki hatto nanopartikulli yoqilg'ilar.[101]

Longshot Nuclear Fission Engine sxemasi

Kelgusi ishlanmalarga kelsak, 60 yil oldin yadroga asoslangan harakatlanishning nazariy imkoniyatlari tahlil qilingan yadro sintezi (Daedalus loyihasi ) va yadro impulsi harakatlanishi (Longshot loyihasi ),[102] ammo o'shandan beri NASA tomonidan olib borilgan amaliy tadqiqotlar to'xtatildi. Ko'proq spekulyativ tomondan, nazariy jihatdan Alcubierre haydovchi "nurdan tezroq" sayohat uchun matematik echimni taqdim etadi, ammo texnik masalalar haqida gapirmaslik uchun Yupiterning massa energiyasini talab qiladi.[103]

Insonning cheklovlari

Odam elementi kosmosni tadqiq qilishda ma'lum fiziologik va psixologik muammolar va cheklovlarni qo'shib qo'yadi, shuningdek, kosmik va ommaviy muammolar bilan birga kosmosni o'rganishning kelajakdagi imkoniyatlariga chek qo'yadi.

Fiziologik masalalar

Tanadagi o'tish tortishish kattaligi yo'nalish, muvofiqlashtirish va muvozanat uchun zararli. Doimiy tortishishsiz suyaklar osteoporozdan aziyat chekadi va ularning mineral zichligi o'rtacha kattalarnikidan 12 baravar tezroq pasayadi.[104] Muntazam jismoniy mashqlar va ovqatlanishsiz yurak-qon tomir tizimining yomonlashishi va mushaklarning kuchini yo'qotishi mumkin.[105] Suvsizlanish sabab bo'lishi mumkin buyrak toshlari,[106] va doimiy gidro-statik nol-gdagi potentsial tana suyuqliklarini yuqoriga siljitishi va ko'rish muammolarini keltirib chiqarishi mumkin.[107]

Bundan tashqari, Yerni o'rab olmasdan magnit maydon qalqon sifatida, quyosh radiatsiyasi kosmosdagi biologik organizmlarga ancha qattiq ta'sir qiladi. EHM tarkibiga zarar etkazilishi mumkin markaziy asab tizimi, (kognitiv funktsiyani o'zgartirish, kamaytirish vosita funktsiyasi va mumkin bo'lgan xatti-harakatlar o'zgarishi), shuningdek degenerativ to'qima kasalliklari ehtimoli.

Psixologik muammolar

Biosfera 2 issiqxonasining yashash muhiti

NASA ma'lumotlariga ko'ra, kosmosdagi izolyatsiya inson ruhiyatiga zararli ta'sir ko'rsatishi mumkin. NASA ijtimoiy tajribalari to'plamiga ko'ra xulq-atvorga oid muammolar, masalan, past ruhiy holat, kayfiyat o'zgarishi, tushkunlik va shaxslararo o'zaro ta'sirning pasayishi, tartibsiz uxlash ritmlari va charchoq mashg'ulotlar darajasiga qadar mustaqil ravishda yuzaga keladi.[108] Ularning eng mashhurlari, Biosfera 2,[109] 1990-yillarda 2 yillik, 8 kishilik ekipaj eksperimenti bo'lib, inson ehtiyojlarini o'rganish va izolyatsiya qilingan muhitda yashashni o'rganish uchun qilingan. Natijada ekipaj a'zolari o'rtasidagi aloqalarni cheklash va hatto to'xtatishni o'z ichiga olgan shaxslararo o'zaro munosabatlar va o'zini tutish holatlari ta'kidlandi,[108] uzoq muddatli havoni qayta ishlash tizimini va oziq-ovqat ta'minotini ta'minlay olmaslik bilan birga.[110]

Resurslar va oziq-ovqat

Kelgusida kengaytirilgan, uchuvchisiz missiyalarning imkoniyatlarini hisobga olgan holda, oziq-ovqat mahsulotlarini saqlash va ularni etkazib berish tegishli cheklovlardir. Saqlash nuqtai nazaridan NASA 3 yillik Mars missiyasi uchun taxminan 24 ming funt (11 tonna) oziq-ovqat talab qilinishini taxmin qilmoqda, ularning aksariyati bir qismi taxminan 1,5 funt (0,68 kg) miqdorida oldindan pishirilgan, suvsiz ovqat shaklida.[111] Yangi mahsulot faqat parvoz boshida bo'lishi mumkin edi, chunki sovutish tizimlari bo'lmaydi. Suvning nisbiy og'irligi cheklov hisoblanadi, shuning uchun Xalqaro kosmik stantsiya (ISS) bir kishiga suvdan foydalanish kuniga 11 litr (2,9 AQSh gal), amerikaliklarning o'rtacha 132 litr (35 AQSh gal) bilan taqqoslanadi.[111]

"Veggie o'simliklarini o'sish tizimi" ISS va Qizil Romeyn salatasi

Ta'minotga kelsak, qayta ishlash, qayta ishlatish va ishlab chiqarish, saqlashni samaraliroq qilish uchun harakatlar qilingan. Yoqilg'i xujayralarida vodorod va kislorodning kimyoviy reaktsiyalari natijasida suv hosil bo'lishi mumkin,[111] and attempts and methods of growing vegetables in micro-gravity are being developed and will continue to be researched. Lettuce has already successfully grown in the ISS 's "Veggie plant growth system", and has been consumed by the astronauts, even though large-scale plantation is still impractical,[112] due to factors such as pollination, long growth periods, and lack of efficient planting pillows.

Artificial Intelligence and Robotic Space Craft Development

The idea of using high level automated systems for space missions has become a desirable goal to space agencies all around the world. Such systems are believed to yield benefits such as lower cost, less human oversight, and ability to explore deeper in space which is usually restricted by long communications with human controllers. Autonomy will be a key technology for the future exploration of the Solar System, where robotic spacecraft will often be out of communication with their human controllers.

Autonomous systems

Autonomy is defined by three requirements:

  1. The ability to make and carry out decisions on their own, based on information on what they sensed from the world and their current state.
  2. The ability to interpret the given goal as a list of actions to take.
  3. The ability to fail flexibly, meaning they are able to continuously change their actions based on what is happening within their system and their surrounding.

Currently, there are many projects trying to advance space exploration and space craft development using AI.[113]

NASA's autonomous science experiment

NASA began its autonomous science experiment (ASE) on Earth Observing-1 (EO-1), which is NASA's first satellite in the millennium program, Earth-observing series launched on November 21, 2000. The autonomy of these satellites is capable of on-board science analysis, re-planning, robust execution, and model-based diagnostic. Images obtained by the EO-1 are analyzed on-board and down linked when a change or interesting event occurs. The ASE software has successfully provided over 10,000 science images. This experiment was the start of many that NASA devised for AI to impact the future of space exploration.

Artificial Intelligence Flight Adviser

NASA's goal with this project is to develop a system that can aid pilots by giving them real-time expert advice in situations that pilot training does not cover or just aid with a pilot's train of thought during flight. Based on the IBM Watson cognitive computing system, the AI Flight Adviser pulls data from a large database of relevant information like aircraft manuals, accident reports, and close-call reports to give advice to pilots. In the future, NASA wants to implement this technology to create fully autonomous systems, which can then be used for space exploration. In this case, cognitive systems will serve as the basis, and the autonomous system will completely decide on the course of action of the mission, even during unforeseen situations.[114] However, in order for this to happen, there are still many supporting technologies required.

In the future, NASA hopes to use this technology not only in flights on earth, but for future space exploration. Essentially, NASA plans to modify this AI flight Advisor for Longer range applications. In addition to what the technology is now, there will be additional cognitive computing systems that can decide on the right set of actions based upon unforeseen problems in space. However, in order for this to be possible, there are still many supporting technologies that need to be enhanced.

Stereo vision for collision avoidance

For this project, NASA's goal is to implement stereo vision for collision avoidance in space systems to work with and support autonomous operations in a flight environment. This technology uses two cameras within its operating system that have the same view, but when put together offer a large range of data that gives a binocular image. Because of its duo-camera system, NASA's research indicate that this technology can detect hazards in rural and wilderness flight environments. Because of this project, NASA has made major contributions toward developing a completely autonomous UAV. Currently, Stereo Vision can construct a stereo vision system, process the vision data, make sure the system works properly, and lastly performs tests figuring out the range of impeding objects and terrain. In the future, NASA hopes this technology can also determine the path to avoid collision. The near-term goal for the technology is to be able to extract information from point clouds and place this information in a historic map data. Using this map, the technology could then be able to extrapolate obstacles and features in the stereo data that are not in the map data. This would aid with the future of space exploration where humans can't see moving, impeding objects that may damage the moving space craft.[115]

Benefits of AI

Autonomous technologies would be able to perform beyond predetermined actions. They would analyze all possible states and events happening around them and come up with a safe response. In addition, such technologies can reduce launch cost and ground involvement. Performance would increase as well. Autonomy would be able to quickly respond upon encountering an unforeseen event, especially in deep space exploration where communication back to Earth would take too long. Space exploration could provide us with the knowledge of our universe as well as incidentally developing inventions and innovations. Traveling to Mars and farther could encourage the development of advances in medicine, health, longevity, transportation, communications that could have applications on Earth.[113]

Robotic spacecraft development

Energiya

Quyosh panellari

Changes in space craft development will have to account for an increased energy need for future systems. Spacecraft heading towards the center of the Solar System will include enhanced solar panel technology to make use of the abundant solar energy surrounding them. Future solar panel development is aimed at their working more efficiently while being lighter.[116]

Radioisotope Thermoelectric Generators

Radioisotope Thermoelectric Generators (RTEG or RTG) are solid-state devices which have no moving parts. They generate heat from the radioactive decay of elements such as plutonium, and have a typical lifespan of more than 30 years. In the future, atomic sources of energy for spacecraft will hopefully be lighter and last longer than they do currently.[117] They could be particularly useful for missions to the Outer Solar System which receives substantially less sunlight, meaning that producing a substantial power output with solar panels would be impractical.

The Private Sector and Space Commercialization

NASA continues to focus on solving more difficult problems involving space exploration such as deep space capabilities and improving human life support systems. With that said, NASA has placed the challenge of commercializing space to the private kosmik sanoat with the hopes of developing innovations which help improve human living conditions in space.[118] Commercialization of space in the private sector will lead to reducing flight costs, developing new methods of sustaining human life in space, and will provide the opportunity for tourists to experience Low Earth orbit travel in the future.

Limitations to Space Commercialization

Experiencing Low Earth Orbit as a tourist requires accommodations to allow for humans to fly or spend time in space. These accommodations will need to solve the following problems:

1. Physiological effects of living in microgravity will affect your body's chemistry and invoke symptoms such as motion sickness from disorientation. Long term gradual effects from time in space include Bone atrophy from a gravity scarce environment that limits the flow of minerals throughout the body.

2. Upcoming habitats are designed for effective transport on rocket systems which means these habitats are small and confined leading to confinement problems and physiological changes in behavior like claustrophobia.

3. Residing in earth's orbit removes the protections of the Ozone layer which absorbs harmful radiation emitted from the sun. Living in orbit around earth exposes humans to ten times more radiation than humans living on earth.[119] These radiative effects can invoke symptoms such as skin cancer.

Company Advancements in Commercialization

Commercialization of Space

SpaceX

Asosiy maqola: SpaceX

In 2017 Elon Musk announced the development of rocket travel to transport humans from one city to another in under an hour. Elon has challenged SpaceX to improve travel across the world through his reusable rocket propulsion to send up passengers on a suborbital trajectory to their destination.[120]

Bokira Galaktikasi

Asosiy maqola: Bokira Galaktikasi

The company Virgin Galactic with CEO Sir Richard Branson is developing another method to reach planes through Aircraft propulsion. Named SpaceshipTwo which is a biplane that carries a spacecraft as its payload known as WhiteKnightTwo and carries it to cruising altitude where the rocket separates and begins to climb out of earth’s atmosphere. [121]The goal is to use this method of travel for Private Spaceflight into space to experience microgravity and observe earth for some time then return home. There have been a few setbacks on the actual commercial launch however the first crewed launch took place in February 2019.[122]

Moviy kelib chiqishi

Asosiy maqola: Moviy kelib chiqishi

Yangi Shepard

The Blue Origin website highlights a small launch vehicle sending payloads into orbit. The goal is to reduce the cost of sending smaller payloads into orbit with future intentions to send humans into space.[123] The first stage is reusable while the second stage is expendable. Maximum payload dimensions are expected to be around 530 cubic feet to be carried past the Karman line.

Yangi Glenn

The larger variant of the New Shepard, Blue Origin seeks to increase their payload capabilities by developing a 95-meter-tall rocket capable of reusable flight to space. Its payload is expected to be satellites or to provide humans with the opportunity to view space without astronaut training. Blue origin intends the rocket's reusability to last 25 flights into space alleviating costs increasing the possibility of commercialized travel.

Moviy oy

Blue origin lunar lander is a designed flexible lander with capabilities to send both cargo and crew to the lunar surface.[124] This habitat will provide a sustained human presence by providing necessities such as life support systems and lunar rovers to excavate and scout the surrounding lunar surface. Further developments on this project include a Human Landing system which are detachable living quarters intended to attach and depart from the Blue Moon Lunar Lander.

Bigelow Aerospace Expandable Activity Module

Asosiy maqola: Bigelow Aerospace The Bigelow Aerospace Corporation founded by Robert Bigelow is headquartered in Las Vegas. A research and development company with emphasis on constructing space architecture capable of housing humans and creating living conditions suitable for living in space. The company has sent two subscale spacecraft known as Genesis I and II into Low Earth Orbit along with sending a module known as Bigelow Expandable Activity Module (BEAM) which is inflated and attached to the International Space Station.[125] The BEAM Module is measured to be 14 feet in length and can be inflated or deflated for ease of transportation. Bigelow Aerospace is working toward developing their own Modules independent of the International Space Station to send Tourists and visitors.

Avrora kosmik stantsiyasi

Asosiy maqola: Avrora kosmik stantsiyasi

The Aurora Space Station is being developed by Orion Span founded by Frank Bunger in 2017 working toward commercializing space through a new capsule known as Aurora.[126] The one time launch destination will maintain a Low Earth Orbit and set to hold crew members and tourists. The station is expected to launch around the year 2022.[127]

Shuningdek qarang

Adabiyotlar

  1. ^ Munevar, Gonzalo (2019-06-01). "An obligation to colonize outer space". Fyuchers. Human Colonization of Other Worlds. 110: 38–40. doi:10.1016/j.futures.2019.02.009. ISSN  0016-3287.
  2. ^ Munevar, Gonzalo (2019-06-01). "An obligation to colonize outer space". Fyuchers. Human Colonization of Other Worlds. 110: 38–40. doi:10.1016/j.futures.2019.02.009. ISSN  0016-3287.
  3. ^ Seedhouse, Erik (2013). "SpaceX". doi:10.1007/978-1-4614-5514-1. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)
  4. ^ Margasahayam, Ravi N. "Research in Space: Facilities on the International Space Station". dx.doi.org. Olingan 2020-11-05.
  5. ^ Margasahayam, Ravi N. "Research in Space: Facilities on the International Space Station". dx.doi.org. Olingan 2020-11-05.
  6. ^ Horvath, Joan; Cameron, Rich (2016), "Gravitatsiya", 3D Printed Science Projects, Berkeley, CA: Apress, pp. 35–50, ISBN  978-1-4842-1324-7, olingan 2020-11-05
  7. ^ Gilster, Paul (12 April 2016). "Breakthrough Starshot: Mission to Alpha Centauri". Centauri Dreams. Olingan 14 aprel 2016.
  8. ^ F, Jessica (14 April 2016). "Stephen Hawking, Mark Zuckerberg, Yuri Milner Launch $100M Space Project Called Breakthrough Starshot". Nature World News.
  9. ^ EDT, Seung Lee on 4/13/16 at 2:01 PM (13 April 2016). "Mark Zuckerberg Launches $100 Million Initiative To Send Tiny Space Probes To Explore Stars". Newsweek. Olingan 29 iyul 2019.
  10. ^ "China to launch Chang'e-5 lunar probe in 2020". 2019-10-28.
  11. ^ Jeff Foust (25 September 2017). "Long March 5 failure to postpone China's lunar exploration program". SpaceNews. Olingan 17 dekabr 2017.
  12. ^ Future Chinese Lunar Missions. David R. Williams, NASA Goddard Space Flight Center. Accessed on 30 November 2018.
  13. ^ {{cite web | url =http://www.isas.jaxa.jp/home/slim/SLIM/about.html%7Ctitle=SLIMについて%7Clast=%7Cfirst=%7Cdate=%7Cwebsite=SLIM homepage|language=Japanese|url-status=dead|archive-url=https://web.archive.org/web/20170704053239/http://www.isas.jaxa.jp/home/slim/SLIM/about.html%7Carchive-date%3D2017-07-04%7Caccessdate%3D2016-06-23%7Cquote%3D... 従来の「降りやすいところに降りる」着陸ではなく、「降りたいところに降りる」着陸へ ...'("Landing will be 'Get off where you want to get off' instead of 'Get off where you can easily get off'") .
  14. ^ "小型探査機による高精度月面着陸の技術実証(SLIM)について" (PDF) (yapon tilida). 2015-06-03. Olingan 2015-06-23.
  15. ^ Hongo, Jun (November 12, 2015). "Japan Plans Unmanned Moon Landing". The Wall Street Journal. Olingan 2016-06-22.
  16. ^ "Missions of Opportunity (MO) in Development – X-Ray Imaging and Spectroscopy Mission (XRISM) – Resolve". NASA. Olingan 9 iyul 2019.
  17. ^ Grush, Loren (May 17, 2019). "NASA administrator on new Moon plan: 'We're doing this in a way that's never been done before'". The Verge. Olingan 17 may, 2019.
  18. ^ Huot, Daniel, ed. (27 November 2015). "The Ins and Outs of NASA's First Launch of SLS and Orion". NASA. Olingan 3 may 2016.
  19. ^ Amos, Jonathan (7 February 2019). "Rosalind Franklin: Mars rover named after DNA pioneer". BBC yangiliklari. Olingan 7 fevral 2019.
  20. ^ Vago, Jorge; Witasse, Olivier; Baglioni, Pietro; Haldemann, Albert; Gianfiglio, Giacinto; va boshq. (2013 yil avgust). "ExoMars: ESA's Next Step in Mars Exploration" (PDF). Axborotnomasi. European Space Agency (155): 12–23.
  21. ^ Katz, Gregory (27 March 2014). "2018 mission: Mars rover prototype unveiled in UK". Excite.com. Associated Press. Olingan 29 mart 2014.
  22. ^ "Second ExoMars mission moves to next launch opportunity in 2020" (Matbuot xabari). Evropa kosmik agentligi. 2016 yil 2-may. Olingan 2 may 2016.
  23. ^ Wall, Mike (21 March 2019). "Meet 'Kazachok': Landing Platform for ExoMars Rover Gets a Name - In 2021, Rosalind Franklin will roll off Kazachok onto the red dirt of Mars". Space.com. Olingan 21 mart 2019.
  24. ^ "Russia and Europe Team Up for Mars Missions". Space.com. 14 mart 2013 yil. Olingan 24 yanvar 2016.
  25. ^ de Selding, Peter B. (26 September 2012). "U.S., Europe Won't Go It Alone in Mars Exploration". Kosmik yangiliklar. Olingan 5 yanvar 2014.
  26. ^ Chang, Kenneth (19 November 2018). "NASA Mars 2020 Rover Gets a Landing Site: A Crater That Contained a Lake - The rover will search the Jezero Crater and delta for the chemical building blocks of life and other signs of past microbes". The New York Times. Olingan 21 noyabr 2018.
  27. ^ Wall, Mike (19 November 2018). "Jezero Crater or Bust! NASA Picks Landing Site for Mars 2020 Rover". Space.com. Olingan 20 noyabr 2018.
  28. ^ Chang, Alicia (9 July 2013). "Panel: Next Mars rover should gather rocks, soil". Associated Press. Olingan 12 iyul 2013.
  29. ^ a b Schulte, Mitch (20 December 2012). "Call for Letters of Application for Membership on the Science Definition Team for the 2020 Mars Science Rover" (PDF). NASA. NNH13ZDA003L.
  30. ^ "Summary of the Final Report" (PDF). NASA / Mars Program Planning Group. 2012 yil 25 sentyabr.
  31. ^ Cite error: nomlangan ma'lumotnoma Moskovits chaqirilgan, ammo hech qachon aniqlanmagan (qarang yordam sahifasi).
  32. ^ Cite error: nomlangan ma'lumotnoma CNET Harwood first chaqirilgan, ammo hech qachon aniqlanmagan (qarang yordam sahifasi).
  33. ^ Amos, Jonathan (4 December 2012). "Nasa to send new rover to Mars in 2020". BBC yangiliklari. Olingan 5 dekabr 2012.
  34. ^ Jones, Andrew (9 February 2018). "China simulates Mars landing in preparation for 2020 mission". GBTimes. Olingan 3 mart 2018.
  35. ^ "China shows first images of Mars rover, aims for 2020 mission". Reuters. Olingan 24 avgust 2016.
  36. ^ "Interview with Zhang Rongqiao, the man behind China's mission to Mars". Youtube. Olingan 24 avgust 2016. Xitoy markaziy televideniesi
  37. ^ Jones, Andrew (22 February 2016). "China is racing to make the 2020 launch window to Mars". GBTimes. Olingan 2016-02-22.
  38. ^ Berger, Eric (22 February 2016). "China pressing ahead with orbiter and lander mission to Mars". Ars Technica. Olingan 2016-02-23.
  39. ^ Lu, Shen (4 November 2016). "China says it plans to land rover on Mars in 2020". CNN yangiliklari. Olingan 2016-02-23.
  40. ^ "China Exclusive: China's aim to explore Mars". Sinxua yangiliklari. 21 mart 2016 yil. Olingan 2016-03-24.
  41. ^ The subsurface penetrating radar on the rover of China's Mars 2020 mission. B. Zhou, S. X. Shen, Y. C. Ji, etal. 2016 16th International Conference on Ground Penetrating Radar (GPR). 13–16 June 2016.
  42. ^ Jatiya, Satyanarayan (18 July 2019). "Rajya Sabha Unstarred Question No. 2955" (PDF). Olingan 30 avgust 2019.[o'lik havola ] Alt URL
  43. ^ "Episode 90 – An update on ISRO's activities with S Somanath and R Umamaheshwaran". AstrotalkUK. 2019 yil 24 oktyabr. Olingan 30 oktyabr, 2019.
  44. ^ Laxman, Srinivas (29 October 2016). "With 82 launches in a go, Isro to rocket into record books". The Times of India. Times News Network. Olingan 3 oktyabr 2018.
  45. ^ Haider, Syed A.; va boshq. (2018). "Indian Mars and Venus Missions: Science and Exploration" (PDF). Scientific Assembly Abstracts. 42rd Committee on Space Research Scientific Assembly. 14-22 July 2018. Pasadena, California. p. 432. B4.1-0010-18.
  46. ^ Bagla, Pallava (17 February 2017). "India eyes a return to Mars and a first run at Venus". Ilm-fan. doi:10.1126/science.aal0781. Olingan 1 may 2017.
  47. ^ a b Kaplan, Sarah (2017-01-04). "NASA's newest missions will explore the solar system's asteroids". Vashington Post. ISSN  0190-8286. Olingan 2017-10-24.
  48. ^ Garner, Rob (2017-04-21). "Lucy: The First Mission to Jupiter's Trojans". NASA. Olingan 2017-10-24.
  49. ^ "Psyche". www.jpl.nasa.gov. Olingan 2017-10-24.
  50. ^ "Cassini Is Gone. Here Are the Next Space Missions to Watch Out For". The New York Times. ISSN  0362-4331. Olingan 2017-10-24.
  51. ^
  52. ^ "OSIRIS-REx Mission Selected for Concept Development". Goddard kosmik parvoz markazi. Arxivlandi asl nusxasi 2012 yil 6-iyunda.
  53. ^ "Canadian Space Milestones". www.asc-csa.gc.ca. 2007 yil 4-dekabr. Olingan 2018-12-19.
  54. ^ "About OSIRIS-REx". www.asc-csa.gc.ca. 6 avgust 2018 yil. Olingan 2018-12-19.
  55. ^ Cite error: nomlangan ma'lumotnoma NYT-20181203 chaqirilgan, ammo hech qachon aniqlanmagan (qarang yordam sahifasi).
  56. ^ "OSIRIS-REx Factsheet" (PDF). NASA/Explorers and Heliophysics Projects Division. 2011 yil avgust.
  57. ^ "Europa Multiple Flyby Mission". Quyosh tizimini o'rganish. Milliy aviatsiya va kosmik ma'muriyat. Arxivlandi asl nusxasi 2015 yil 10-iyulda. Olingan 9-iyul, 2015.
  58. ^ Europa Clipper passes key review. Jeff Fust, Kosmik yangiliklar. 22 avgust 2019.
  59. ^ Wolfe, Alexis; McDonald, Lisa (July 21, 2017). "Balance of NASA Planetary Science Missions Explored at Hearing". Amerika fizika instituti. Olingan 29 may, 2019.
  60. ^ PMPO staff. "Solar System Exploration Missions List". Planetary Missions Program Office (PMPO). Milliy aviatsiya va kosmik ma'muriyat (NASA). Arxivlandi asl nusxasi 2018 yil 27 martda. Olingan 27 mart, 2018.
  61. ^ "NASA'S FY2016 BUDGET REQUEST – Overview" (PDF). SpacePolicyOnline.com. 2015 yil 27 may. Olingan 29 may, 2019.
  62. ^ "Billionaire aims to jump-start search for alien life and rewrite rules of space exploration". NBC News. Olingan 2019-02-17.
  63. ^ Mandelbaum, Rayan F. "Report: NASA and Yuri Milner Working Together on Life-Hunting Mission to Enceladus". Gizmodo. Olingan 2019-02-17.
  64. ^ Xarris, Mark. "NASA is giving advice to Yuri Milner's private mission to Enceladus". Yangi olim. Olingan 2019-02-17. The first private mission to deep space is gathering momentum.
  65. ^ Wall, Mike. "Billionaire Yuri Milner's Breakthrough Initiatives Eyes Private Mission to Seek Alien Life". Space.com. Olingan 2019-02-17. Breakthrough Initiatives was investigating the feasibility of launching a probe that would look for signs of life in the plume of water vapor and other material wafting from Enceladus' south polar region.
  66. ^ "Saturn moon Enceladus' ice shell likely thinner than expected". GeoSpace. 2016-06-21. Olingan 2019-02-17.
  67. ^ Čadek, Ondřej; Tobie, Gabriel; Van Hoolst, Tim; Massé, Marion; Choblet, Gaël; Lefèvre, Axel; Mitri, Juzeppe; Baland, Rose-Marie; Běhounková, Marie (2016). "Enceladus's internal ocean and ice shell constrained from Cassini gravity, shape, and libration data". Geofizik tadqiqotlar xatlari. 43 (11): 5653–5660. Bibcode:2016GeoRL..43.5653C. doi:10.1002/2016GL068634. ISSN  1944-8007.
  68. ^ "CHEOPS passes final review before shipment to launch site". 29 iyul 2019. Olingan 7 sentyabr 2019.
  69. ^ "ESA Science Programme's new small satellite will study super-Earths". ESA press-relizi. 19 oktyabr 2012 yil. Olingan 19 oktyabr 2012.
  70. ^ PLATO spacecraft to find new Earth-like exoplanets. June 21, 2017, Max Planck Society.
  71. ^ Amos, Jonathan (29 January 2014). "Plato planet-hunter in pole position". BBC yangiliklari. Olingan 2014-01-29.
  72. ^ "Plato". Evropa kosmik agentligi. Evropa kosmik agentligi. Olingan 9 fevral 2017.
  73. ^ "About the James Webb Space Telescope". Olingan 13 yanvar 2012.
  74. ^ "How does the Webb Contrast with Hubble?". JWST Home – NASA. 2016. Arxivlangan asl nusxasi 2016 yil 3-dekabrda. Olingan 4 dekabr 2016.
  75. ^ "JWST vital facts: mission goals". NASA James Webb Space Telescope. 2017 yil. Olingan 29 yanvar 2017.
  76. ^ "James Webb Space Telescope. JWST History: 1989-1994". Space Telescope Science Institute, Baltimore, MD. 2017. Arxivlangan asl nusxasi 2014 yil 3 fevralda. Olingan 29 dekabr 2018.
  77. ^ "The Sunshield". nasa.gov. NASA. Olingan 28 avgust 2016.
  78. ^ Cite error: nomlangan ma'lumotnoma CCtCapBlogAnnounce chaqirilgan, ammo hech qachon aniqlanmagan (qarang yordam sahifasi).
  79. ^ "SpaceX delays commercial crew test flights to latter half of 2018". SpaceNews.com. 2018 yil 11-yanvar.
  80. ^ "Boeing, SpaceX Secure Additional Crewed Missions Under NASA's Commercial Space Transport Program".
  81. ^ "NASA ekipajni birinchi sinov parvozlari, tijorat kosmik kemalari missiyalariga tayinladi". NASA. 2018 yil 3-avgust.
  82. ^ "NASA: Oyni Marsgacha". NASA. Olingan 19 may 2019.
  83. ^ NASA administrator on new Moon plan: 'We're doing this in a way that's never been done before'. Loren Grush, The Verge. 2019 yil 17-may.
  84. ^ Harwood, William (17 July 2019). "NASA boss pleads for steady moon mission funding". CBS News. Olingan 28 avgust 2019.
  85. ^ Senate appropriators advance bill funding NASA despite uncertainties about Artemis costs. Jeff Fust, Kosmik yangiliklar. 27 sentyabr 2019 yil.
  86. ^ Fernholz, Tim; Fernholz, Tim. "Trump wants $1.6 billion for a moon mission and proposes to get it from college aid". Kvarts. Olingan 2019-05-14.
  87. ^ Berger, Eric (2019-05-14). "NASA reveals funding needed for Moon program, says it will be named Artemis". Ars Technica. Olingan 2019-05-22.
  88. ^ "Boeing: CST-100 Starliner". www.boeing.com. Olingan 2020-11-06.
  89. ^ Berger, Eric (29 September 2019). "Elon Musk, Man of Steel, reveals his stainless Starship". Ars Technica. Olingan 30 sentyabr 2019.
  90. ^ Lawler, Richard (20 November 2018). "SpaceX BFR has a new name: Starship". Engadget. Olingan 21 noyabr 2018.
  91. ^ Boyl, Alan (2018 yil 19-noyabr). "Goodbye, BFR … hello, Starship: Elon Musk gives a classic name to his Mars spaceship". GeekWire. Olingan 22 noyabr 2018. Starship is the spaceship/upper stage & Super Heavy is the rocket booster needed to escape Earth’s deep gravity well (not needed for other planets or moons)
  92. ^ "Yulduzli kemalar". SpaceX. Olingan 2 oktyabr 2019.
  93. ^ Cawley, James (2020-08-28). "Boeing's Starliner Makes Progress Ahead of Flight Test with Astronauts". NASA. Olingan 2020-11-06.
  94. ^ von Ehrenfried, Manfred ”Dutch” (2020), "NASA and Commercial Crew Development", The Artemis Lunar Program, Cham: Springer International Publishing, pp. 111–129, ISBN  978-3-030-38512-5, olingan 2020-11-06
  95. ^ von Ehrenfried, Manfred ”Dutch” (2020), "NASA and Commercial Crew Development", The Artemis Lunar Program, Cham: Springer International Publishing, pp. 111–129, ISBN  978-3-030-38512-5, olingan 2020-11-06
  96. ^ Hsu, Jeremy (August 2018). "Boeing and SpaceX test the next U.S. ride to space: The international space station is expecting two visitors this month: Starliner and Crew Dragon - [News]". IEEE Spektri. 55 (8): 6–8. doi:10.1109/mspec.2018.8423570. ISSN  0018-9235.
  97. ^ "Voyager - Mission Overview". voyager.jpl.nasa.gov. Olingan 2017-10-24.
  98. ^ "Breakthrough Propulsion Physics Program | WiredCosmos". wiredcosmos.com. Olingan 2017-10-24.
  99. ^ a b "Our Engine | Ad Astra Rocket". www.adastrarocket.com. Olingan 2017-10-24.
  100. ^ Harbaugh, Jennifer (2015-08-10). "What Is The RS-25 Engine?". NASA. Olingan 2017-10-24.
  101. ^ "Near-lightspeed nano spacecraft might be close". msnbc.com. 2009-07-08. Olingan 2017-10-24.
  102. ^ "RealClearScience - Project Longshot". www.realclearscience.com. Olingan 2017-10-24.
  103. ^ "Warp Drives Might Be More Realistic Than Thought". Simli. Olingan 2017-10-24.
  104. ^ "NASA - Bones in Space". www.nasa.gov. Heather Deiss:MSFC, Virtual Astronaut: JSC. Olingan 2017-10-24.CS1 maint: boshqalar (havola)
  105. ^ "Cardiovascular Deconditioning in Weightlessness" (PDF).
  106. ^ "NASA - Renal Stone Risk During Space Flight: Assessment and Countermeasure Validation fact sheet (07/01)". www.nasa.gov. Olingan 2017-10-24.
  107. ^ "NASA - Vision Impairment and Intracranial Pressure". www.nasa.gov. Olingan 2017-10-24.
  108. ^ a b "Psychology experiment kept six NASA subjects isolated on a Mars-like volcano for 8 months". AQSh BUGUN. Olingan 2017-10-24.
  109. ^ "What Is Biosphere 2 | Biosphere 2". biosphere2.org. Olingan 2017-11-15.
  110. ^ "Biosphere 2 test module experimentation program" (PDF). NASA. November 1, 1990.
  111. ^ a b v "NASA - Human Needs: Sustaining Life During Exploration". www.nasa.gov. Lindsay Crouch : LaRC. Olingan 2017-11-16.CS1 maint: boshqalar (havola)
  112. ^ Tonn, Shara. "Those Veggies Grown on the ISS Get Humans Closer to Mars". Simli. Olingan 2017-11-16.
  113. ^ a b "The Future of Aerospace Automation". Robotics Online. Olingan 2017-11-28.
  114. ^ "Autonomous Sciencecraft Experiment". ase.jpl.nasa.gov. Olingan 2017-10-31.
  115. ^ Obringer, Lee (2016-06-14). "Autonomous System". NASA. Olingan 2017-11-28.
  116. ^ "NASA: AI Will Lead the Future of Space Exploration". Futurizm. 2017-06-27. Olingan 2017-11-28.
  117. ^ Allison, Peter Ray. "What will power tomorrow's spacecraft?". Olingan 2017-11-28.
  118. ^ DIN EN 16604-30-03:2020-10, Raumfahrt_- Überwachung der Weltraumlageerfassung_- Teil_30-03: Beobachtungssystembeschreibungs-Nachricht_(OSDM); Deutsche Fassung EN_16604-30-03:2020, Beuth Verlag GmbH, olingan 2020-11-05
  119. ^ Ghose, Anindya (2017-04-17), "Crowdedness: Why Scarcity of Space Matters", Ga teging, MIT Press, ISBN  978-0-262-03627-6, olingan 2020-11-05
  120. ^ Seedhouse, Erik (2013). "SpaceX". doi:10.1007/978-1-4614-5514-1. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)
  121. ^ Seedhouse, Erik (2014-12-01), "Spaceport America", Bokira Galaktikasi, Cham: Springer International Publishing, pp. 87–97, ISBN  978-3-319-09261-4, olingan 2020-11-05
  122. ^ "LAS VEGAS SANDS CORP., a Nevada corporation, Plaintiff, v. UKNOWN REGISTRANTS OF www.wn0000.com, www.wn1111.com, www.wn2222.com, www.wn3333.com, www.wn4444.com, www.wn5555.com, www.wn6666.com, www.wn7777.com, www.wn8888.com, www.wn9999.com, www.112211.com, www.4456888.com, www.4489888.com, www.001148.com, and www.2289888.com, Defendants". Gaming Law Review and Economics. 20 (10): 859–868. 2016 yil dekabr. doi:10.1089/glre.2016.201011. ISSN  1097-5349.
  123. ^ Harrison, Nicholas (2019-06-01), "Kirish", Our Civilizing Mission, Liverpool University Press, pp. 1–13, ISBN  978-1-78694-176-3, olingan 2020-11-05
  124. ^ "Qarama-qarshilik", Blue on Blue Ground, University of Pittsburgh Press, pp. 11–11, ISBN  978-0-8229-9091-8, olingan 2020-11-05
  125. ^ Seedhouse, Erik (2014-08-13), "Bigelow Expandable Activity Module", Bigelow Aerospace, Cham: Springer International Publishing, pp. 87–98, ISBN  978-3-319-05196-3, olingan 2020-11-05
  126. ^ Woolsey, R.E.D. (2003-12-01). "How to market OR successfully". ORiON. 11 (0). doi:10.5784/11-0-449. ISSN  2224-0004.
  127. ^ Küng-Shankleman, Lucy (2012-11-12). "Inside the BBC and CNN". doi:10.4324/9780203355107. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)