Čarls Darvin - Čovekovo poreklo, ćirilica-s engleskog preveo Nedeljko Divac Izdavačka knjižara Gece Kona, Knez Mihailova 1 Beograd 1931. Tvrde korice Format: 13x17,5 cm 271 strana Na prvoj strani(unutrašnja strana naslovne korice ima neznatnog pisanja naliv perom, prvi prazan list pocepan u donjem desnom uglu, zadnje 3 strane i unutrašnja strana zadnje korice ispisane naliv perom, unutrašnjost knjige besprekorna.

Publisher ‏ : ‎ John Wiley & Sons; First Edition (January 1, 1951)

Nove kožne baletanke sa cirkonima vel.37

Spoljašnjost kao na fotografijama, unutrašnjost u dobrom i urednom stanju! Nakon obimnog istraživanja sveta biljaka i njegove veze sa čovekom, a što potvrđuju poslednja naučna otkrića, u ovoj knjizi su predočene fantastične činjenice o biljkama kao detektorima laži i ekološkim stražarima; opisana je njihova sposobnost prilagođavanja čovekovim željama, njihovo reagovanje na muziku, lekovite moći i sposobnost komunikacije sa ljudima. Autori dela, Piter Tompkins i Kristofer Bird, smatraju da najdalekosežnija revolucija 20 veka – ona koja može da spase ili uništi planetu – može da dođe iz vaše bašte. Knjiga je napisana 1973. godine.

JUGOSLOVENSKA AKADEMIJA ZNANOSTI I UMETNOSTI SVEUČILIŠTE zagreb 1965 odlično očuvana exlibris JES.20/20

Nebeska mehanika - Istorija astronomske nauke - Milutin Milanković Milutin Milanković, izabrana dela, kniga tri Izdavač: ZAVOD ZA UDZBENIKE - BEOGRAD: 1997 464 str 24 cm tvrd povez c2

Godina izdanja: 2017 Oblast: Astronomija Jezik: Srpski Autor: Strani Astro fizika Astrofizika za ljude kojima se žuri Nil de Gras Tajson Iz 2017 god. 158 str. Veliki prasak? Crne rupe? Tamna materija? Tamna energija? Kvazari? Neutronske zvezde? Galaktička jata i kosmičko pozadinsko zračenje? Mehanika, kvantna i nebeska? Fotoni, protoni, kvarkovi, muoni i gluoni? Ako vam je dozlogrdilo da ne razumete o čemu se tu radi, ako želite da se uhvatite u koštac sa najnovijim idejama o tome ko smo, odakle dolazimo i kuda idemo, ako ste spremni da zasenite svoje društvo poznavanjem vrhunskih dometa savremene astrofizike, profesor Nil DeGras Tajson, jedan od najživopisnijih popularizatora nauke današnjice, povešće vas na uzbudljivo putovanje od početka univerzuma do njegovog neumitnog kraja, od najsitnijih delića materije do najvećih objekata u poznatom kosmosu, jasnim rečnikom čineći i najsloženija pitanja prijemčivim svakome od nas, u kratkim i sažetim dozama za koje može da se nađe vremena čak i u užurbanom ritmu savremenog života… po.st.lev.2

Spoljašnjost kao na fotografijama, unutrašnjost u dobrom i urednom stanju! Engleski jezik! Bogato ilustrovano! 1948 god. Geologija (od grč. γεα [gea] — „zemlja“ i λογος [logos] — „rasprava (diskusija)“[1][2]) je nauka koja se bavi proučavanjem Zemlje, njenog nastanka i procesa koji su je oblikovali, njenog sastava i strukture. Naučnici, koji se tim bave, nazivaju se geolozi. Reč „geologija“, prvi je upotrebio 1778. godine Žan Anri Delik (1727—1817) a terminološki je definisao 1779. godine Horas-Benedikt od Sosura (1740—1799). Geologija je, uz astronomiju, jedna od najstarijih nauka. Prva upotreba geologije vezana je za korišćenje tehničkog kamena kao građevinskog materijala. Još u doba neolita, kada se javljaju prva naselja, ljudi su znali koja je vrsta kamena dobra za koju potrebu, pa su za pravljenje alatki koristili opsidijan i kremen, a za gradnju mermer i krečnjak. O tome svedoče arheološki nalazi. Prva znanja o mineralnim sirovinama, njihovom korišćenju i razmeni, javljaju se pre pet hiljada godina. U to doba su u Belgiji i južnoj Engleskoj postojali podzemni rudnici kremena. Najstariji dokumenti u kojima se obrađuju geološke teme vezani su za razvoj civilizacije u dolini Nila. Iz Egipta potiče mapa nastala 1160. p. n. e., na kojoj su prikazani Wadi Hammamat, Wadi Atala i Wadi El-sid, sa okolinom. Na njoj su prikazani kamenolom i rudnik zlata Bir Umm Fawakir, sa brojnim oznakama za pojedine specifične pojave na tom području. Spoznaje o vrlo složenoj problematici postanka i razvitka Zemlje javljale su se postupno, a neke datiraju još iz antičkih vremena. No, tek u 15. veku dolazi do pokušaja sistematizacije znanja o Zemlji, a postupno se javljaju i novi pojmovi kao temelj geologije u nastajanju. Pitagorejci su, još u 6. veku pre nove ere znali oblik i položaj Zemlje. Herodot je, u svojim spisima, opisao deltu Nila i zaključio da se širi u more zbog prinosa mulja. Aristotel je beležio svoja zapažanja o Zemlji i njenom nastanku. Takođe, objašnjavao je i razne pojave, npr. da zemljotresi nastaju kada se mase vazduha u zemlji sukobe zbog razlike u temperaturi i eksplozivno je napuštaju kroz pukotine i pećine. U delu Meteorologica objašnjava nastanak minerala. Uočio je i fosile, ali je smatrao da su to ostaci organizama koji ne žive u moru, već ispod zemlje. Smatrao je da imaju neorgansko poreklo, da su nežive materije, kao i da predstavljaju neuspešne pokušaje nastanka živih bića. Teofrast, koji je bio Aristotelov učenik, napisao je, 314. p. n. e., delo Peri Lithon (O stenama). Ovo delo predstavlja katalog mineralnih supstanci koje su se koristile u tadašnjem svetu i verovatno je prva napisana geološka knjiga uopšte. U njoj se, po prvi put, pominju nazivi velikog broja minerala i stena. Strabon je razmatrao postanak vulkana i zemljotresa, ali se uglavnom oslanjao na ideje Aristotela. Takođe je pominjao mogućnost da su fosilni organizmi tragovi života u stenama. Ovidije je izneo zapažanja o školjkama koje se nalaze u planinama, i zaključio da je zemlja nekada bila prekrivena morem. Zapazio je i da voda svojim delovanjem postepeno snižava uzvišenja u reljefu. Uvideo je da se tako dobija materijal koji se deponuje tokom poplava i zatim suši i očvršćava, čime prelazi u stenu. Plinije Stariji je napisao prvu enciklopediju, u 37 tomova, nazvanu Naturalis Historia. U njoj je dao precizan opis pojedinih minerala, uključujući njihov oblik, kristalne pljosni i druga svojstva. Poredio je i tvrdoću minerala, i zaključio da je dijamant najtvrđi od svih minerala. U Kini je napravljeno dosta instrumenata i sprava za geološka ispitivanja. Stari Kinezi su prvi konstruisali garnituru za bušenje bunara i prvi seizmoskop. U Kini je konstruisan i prvi kompas. Kineski naučnik Šen Ko (1031–1095) postavio je hipotezu o nastanku kopnenih formacija: on je zapazio fosilne ostatke školjki u geološkom stratumu u planinama stotinama kilometara daleko od okeana, na osnovu čega je pretpostavio da je kopno nastalo erozijom planina i taloženjem prašine .[3] U srednjem veku su ostaci izumrlih organizama najčešće smatrani „igrom prirode“ ili dokazima „opšteg potopa“. No, već je Leonardo da Vinči (1452—1519) upozorio da se jednim „potopom“ ne može objasniti rasprostranjenost fosilnih ostataka morskih organizama na kopnu. Osim toga, on je bio svestan dugog trajanja geološke prošlosti, a opisao je i prvi geohemijski ciklus (voda ispire so iz tla i odnosi je u more koje se tako zaslanjuje, a zbog izdizanja morskog dna stvaraju se lagune gde se voda isparuje i taloži novi sloj, koji opet može biti potopljen...). Leonardo da Vinči je shvatio i odnos erozije tla i izdizanja kopna (erozija narušava ravnotežu u litosferi, a ona se ponovno uspostavlja izdizanjem). Širi interes za geološke probleme izazvale su rasprave između tzv. neptunista i plutonista. Plutonisti, na čelu sa Džejms Hatonom (1726—1797) su oživeli zapažanje Strabona (1. vek p. n. e.) držeći da su pojedine stene nastale u vezi s vulkanskim erupcijama. Nazvani su po bogu podzemlja, Plutonu. Neptunisti, na čelu sa Vernerom su oživeli staru ideju Talesa iz Mileta (7/6. vek p. n. e.), pripisujući postanak stena litosfere - vodi. Zbog toga su i dobili naziv prema antičkom bogu okeana Neptunu. Sosur, (18. vek) prvi je shvatio da su nagnuti slojevi posledica kretanja litosfere i prodora starijih stena kroz mlađe. Baumont (19. vek) prvi spoznaje ulogu raseda u postanku doline Rajne, a tvrdi i da tektonske sile nastaju zbog hlađenja Zemlje i stezanja. Žorž Kivje (1769—1832), prirodnjak i zoolog, postavlja temelje naučnog proučavanja fosilnih ostataka organizama. Vilijam Smit (1769. – 1839) primenjuje fosilne ostatke za određivanje relativne starosti stena Zemljine kore .[4] Uočava se i lateralna različitost stena nastalih u isto vreme, pa tako nastaje pojam facija. Pojam geosinklinale kao labilnog sedimentacionog prostora, nastalog lomljenjem i savijanjem Zemljine kore dobija na značenju 1900. godine kada ga je istakao Haug pri postanku ulančanih gorskih sistema a 1908. godine predložio Frenk Bersli Tejlor (1860—1938). Geosinklinala ostaje u središtu interesa geologa sve do 1960-ih, kada ju je delom istisnula koncepcija tektonike ploča...

Spoljašnjost kao na fotografijama, unutrašnjost u dobrom i urednom stanju! Divite se veličanstvenoj domišljatosti prirode! Proniknite iza kulisa poznatog sveta Uz knjigu NEVEROVATNE TAJNE PRIRODE pođite na nezaboravno putovanje koje će Vam otkriti svet biljaka i životinja. Posmatrajte uzbudljive stvari koje priroda skriva i tako saznajte ``kako`` i ``zašto``! Od iznenađujućih otkrića do uzbudljivih objašnjenja, kroz više od 900 fotografija i ilustracija, otkrijte genijalnost zakona prirode i izmerite njenu neverovatnu inteligenciju. Osetite uživanje koje Vam donose znanje i razumevanje! Zašto Zemlja podrhtava? Kako otrovne biljke mogu biti lekovite? Zašto je nebo plavo? Kako se ptice selice orjentišu? Prvi put Vas jedna knjiga vodi svuda, u svemir ili na dno okeana, u leglo grinja ili u gnezdo kraljevskog orla, i tako Vam otkriva sve o najneverovatnijim, najintrigantnijim i najnepoznatijim prirodnim fenomenima! Od iznenađenja do otkrića – napokon posedujete ključ zagonetke!

Spoljašnjost kao na fotografijama, unutrašnjost u dobrom i urednom stanju! Raspravlja o lovu i ribolovu, jabukama, kolibrićima, paukovima, leptirima monarhima, divljim orhidejama, patkama i brancinu te opisuje posebna okruženja u državi

odlicno ocuvane, kao nove, udobne

Odlicna,,na engleskom jeziku Bogato ilustrovana u boji Veliki format 29×22cm,,oko 330 strana Tvrd povez sa omotom Cankarjeva zalozba,1989.

ELEMENTI DIFERENCIJALNOG I INTEGRALNOG RAČUNA Uvod u teoriju sa resenim zadacima - Dobrilo Tosic, Miloljub Albijanic, Danijela Milenkovic Izdavac: Slizbeni glasnik Cvrst povez 454 str.

62378) FUNDAMENTALS OF FRESHMAN MATHEMATICS , Carl Allendoerfer and Cletus Oakley , McGraw Hill Book Company 1972 , third edition , engleski jezik , tvrd povez, format 19,5 x 24 cm , potpis i posveta na predlistu , 636 strana

Odlicno stanje Odlicna grupa autora Vise nego kompletno stivo date oblasti Preporuka

Kompletan prirucnik

Standardna zbirka za spremanje prijemnog ftn Nista se nije menjalo samo su dodavani rokovi koje svakako imate na netu Preporuka za svakog buduceg studenta

Brutalno Legendarni profesor mitrinovic!

Lepo očuvana. F

brosirani povez 1952 na 440 str jako lepo ocuvana

62299) RASPROSTRANJENJE I ŽIVOT PTICA U SRBIJI , S.D. Matvejev , Srpska akademija nauka Beograd 1950 , Ornitogeographia Serbica ; mek povez, format 15,5 x 22,5 cm , ćirilica, XIV +362 strane, ilustrovano

62298) ŽIVOT PTICA KOPAONIKA pre pedeset godina 1938 - 1967 , S.D. Matvejev i R.N. Aleksandrov , Srpsko društvo za istoriju nauke Beograd 2002 , mek povez, format 17,5 x 23 cm , latinica, VI + 430 strana + 22 strane kolor tabli sa fotografijama vrsta ptica

Lepo očuvano Retko Lanselot Hogben Matematika za svakoga Taking only the most elementary knowledge for granted, Lancelot Hogben leads readers of this famous book through the whole course from simple arithmetic to calculus. His illuminating explanation is addressed to the person who wants to understand the place of mathematics in modern civilization but who has been intimidated by its supposed difficulty. Mathematics is the language of size, shape, and order―a language Hogben shows one can both master and enjoy. Lancelot Thomas Hogben FRS[1] FRSE (9 December 1895 – 22 August 1975) was a British experimental zoologist and medical statistician. He developed the African clawed frog (Xenopus laevis) as a model organism for biological research in his early career, attacked the eugenics movement in the middle of his career, and wrote popular books on science, mathematics and language in his later career.[2][3][4][5][6][7][8] Early life and education[edit] Hogben was born and raised in Southsea near Portsmouth in Hampshire. His parents were Methodists.[1] He attended Tottenham County School in London, his family having moved to Stoke Newington, where his mother had grown up, in 1907, and then as a medical student studied physiology at Trinity College, Cambridge.[3] Hogben had matriculated into the University of London as an external student before he could apply to Cambridge and he graduated as a Bachelor of Science (BSc) in 1914.[9] He took his Cambridge degree in 1915, graduating with an Ordinary BA. He had acquired socialist convictions, changing the name of the university`s Fabian Society to Socialist Society and went on to become an active member of the Independent Labour Party. Later in life he preferred to describe himself as `a scientific humanist`.[10] In the First World War he was a pacifist, and joined the Quakers.[1] He worked for six months with the Red Cross in France, under the auspices of the Friends` War Victims Relief Service and then the Friends` Ambulance Unit. He then returned to Cambridge, and was imprisoned in Wormwood Scrubs as a conscientious objector in 1916. His health collapsed and he was released in 1917.[1] His brother George was also a conscientious objector, serving with the Friends` Ambulance Unit. Career[edit] After a year`s convalescence he took lecturing positions in London universities and in 1921 he became a Doctor of Science (D.Sc.) in Zoology of the University of London.[11] He moved in 1922 to the University of Edinburgh and its Animal Breeding Research Department.In 1923, Hogben was a founder of the Society for Experimental Biology and its organ the British Journal of Experimental Biology (renamed Journal of Experimental Biology in 1930), along with Julian Huxley and geneticist Francis Albert Eley Crew (1886–1973). According to Gary Werskey, Hogben was the only one of the founders not holding any eugenic ideas. In 1923 he was also elected a Fellow of the Royal Society of Edinburgh. His proposers were James Hartley Ashworth, James Cossar Ewart, Francis Albert Eley Crew and John Stephenson. He won the Society`s Keith Prize for the period 1933–35.[12] He then went to McGill University. In 1927 he became zoology chair at the University of Cape Town. He worked in endocrinology, studying chameleon properties of the Xenopus frog. The frog`s adult color depended on its early environment; wild frogs became brownish-green, while frogs raised in a dark environment became black, and in a light environment, light-colored. Hogben theorized that the frog`s ability to develop differences in color was related to the pituitary gland. After removing the pituitary gland, the frogs became white regardless of their environment.[13] The frogs also developed a side effect that Hogben tried to counteract by injecting the frogs with pituitary extract from an ox. He noticed that female Xenopus frogs ovulated within hours of being injected with the extract. In this way, Hogben serendipitously discovered a human pregnancy test. He knew that the ox extract chemically resembled human chorionic gonadotropin (HCG), a hormone released by pregnant women. He confirmed that female Xenopus frogs, when injected with urine from a pregnant woman, ovulated within hours.[13] Hogben found the job in South Africa attractive, but his antipathy to the country`s racial policies drove him to leave. In 1930 Hogben moved to the London School of Economics, in a chair for social biology. There he continued to develop the Hogben Pregnancy Test. Previous pregnancy tests required several days to carry out and resulted in the deaths of mice or rabbits. Hogben`s pregnancy test took hours and could be carried out without harm to the frogs, which could be reused for future tests. It became the major, international pregnancy test for about fifteen years, from the mid-1930s through the 1940s.[14] The social biology position at the London School of Economics was funded by the Rockefeller Foundation, and when it withdrew funding Hogben moved to Aberdeen, becoming Regius Professor of Natural History at the University of Aberdeen in 1937. During World War II Hogben had responsibility for the British Army`s medical statistics. From 1941–1947 he was Mason Professor of Zoology at the University of Birmingham and professor of medical statistics there 1947–1961, when he retired. In 1963, he became the first Vice-Chancellor of the University of Guyana, a post he abandoned in April 1964, resigning in 1965. Xenopus pregnancy test controversy[edit] Hogben`s claim to have discovered the Xenopus pregnancy test was disputed by two South African researchers, Hillel Shapiro and Harry Zwarenstein. Shapiro had been Hogben`s student in Cape Town, and he acknowledged that Hogben had suggested that Xenopus was a suitable subject for general research. The pregnancy test itself was discovered by Shapiro and his co-researcher, Harry Zwarenstein, and their results and report had been widely published in medical journals and text books[15] in South Africa[16] and the United Kingdom; in their report published by Royal Society of South Africa in October 1933, Shapiro and Zwarenstein announced that in the previous month they had successfully used Xenopus in 35 pregnancy tests. The following spring Nature carried their report.[17] Shapiro and Zwarenstein`s letter published in the British Medical Journal on 16 November 1946[18] clarified that Hogben was retrospectively wrongly claiming credit for discovering the pregnancy test. Nobel laureate John B. Gurdon of the Wellcome CRC Institute and Nick Hopwood of the Department of History and Philosophy of Science, University of Cambridge, elaborated on this in detail in their comprehensive article published in The International Journal of Developmental Biology, pointing out that although Hogben had demonstrated in principle that Xenopus might be used for testing the presence of gonadotrophins in a pregnant woman`s urine, his reporting had not mentioned pregnancy testing at all; he seemed to have had other research directions.[19] Political views[edit] While he was[when?] Chair for Social Biology at the London School of Economics, Hogben unleashed a relentless attack on the British eugenics movement, which was at its apex in the 1920s and 1930s. In contrast to eugenicists, who commonly drew a strict line between heredity (or nature) and environment (or nurture), Hogben highlighted the `interdependence of nature and nurture`.[10] Hogben`s appeal to this interdependence of nature and nurture marked the first time gene-environment interaction (or `gene-environment interplay`) was used to undermine statistical attempts to partition the contributions of nature and nurture, as well as the eugenic implications drawn from those statistics. Hogben`s foil throughout this period was R.A. Fisher, the leading scientist-eugenicist of the day (Tabery 2008). In an interview for the book Twentieth Century Authors, Hogben stated: `I like Scandinavians, skiing, swimming and socialists who realize it is our business to promote social progress by peaceful methods. I dislike football, economists, eugenicists, Fascists, Stalinists, and Scottish conservatives. I think that sex is necessary and bankers are not`.[10] Popular science writing[edit] Inspired by the example of The Outline of History by H. G. Wells, Hogben began to work on books designed to popularize mathematics and science for the general public. Hogben produced two best-selling works of popular science, Mathematics for the Million (1936) and Science for the Citizen (1938). Mathematics for the Million received widespread praise, with H. G. Wells saying that `Mathematics for the Million is a great book, a book of first-class importance`.[20] The book was also lauded by Albert Einstein, Bertrand Russell and Julian Huxley.[20][21]Mathematics for the Million was reprinted after Hogben`s death.[21] While at Aberdeen, Hogben developed an interest in language. Besides editing The Loom of Language by his friend Frederick Bodmer, he created an international language, Interglossa, as `a draft of an auxiliary for a democratic world order`. George Orwell in his essay Politics and the English Language[22] used a sentence of Hogben`s as an example of how not to write, particularly in relation to the use of metaphors. Above all, we cannot play ducks and drakes with a native battery of idioms which prescribes egregious collocations of vocables (...) — Orwell (1946), quoting Hogben, Interglossa (1943) Professor Hogben plays ducks and drakes with a battery which is able to write prescriptions (...) — Orwell, Politics and the English Language (1946) Personal life[edit] In 1918 Hogben married the mathematician, statistician, socialist and feminist Enid Charles from Denbigh with whom he had two sons and two daughters.[3] He learned Welsh and they had four children.[23] In the 1950s Hogben settled at Glyn Ceiriog in north Wales, where he bought a cottage. That decade his marriage to Enid broke down; the couple separated in 1953 and divorced in 1957. Later that year Hogben married (Mary) Jane Roberts (née Evans), a local widowed retired school headmistress, who was seven years younger. Widowed by the death of Jane in 1974, he died at the War Memorial Hospital at Wrexham[3] in 1975 aged 79 and was cremated at nearby Pentre Bychan.[24] He was an atheist, and defined himself as a `scientific humanist`.[25][26] Awards[edit] Hogben was awarded the Neill Prize, and a gold medal, for his work in mathematical genetics.[27] In 1936, Hogben became a Fellow of the Royal Society.[28] The citation read: Distinguished for his work in Experimental Zoology, especially in respect of the mechanism of colour change in Amphibia and Reptilia. He has published a series of important papers on the effect of hormones on the pigmentary effector system and on the reproductive cycle of vertebrates, and has worked on many branches of comparative physiology. More recently he has made substantial contributions to genetics, especially with regard to man. Legacy[edit] Hogben`s research has left a lasting impression on the history of biology. The African clawed frog (Xenopus laevis), which Hogben first developed as a model organism, is now one of the most widely used model organisms in biological research. Likewise, his emphasis on the interdependence of nature and nurture has affected and continues to affect scientific practice and scientific debate. In terms of scientific practice, modern research on phenotypic plasticity, gene-environment interaction, and developmental systems theory all owes much to the legacy of Hogben`s initial emphasis on understanding nature and nurture interdependently rather than in dichotomy. In terms of scientific debate, the dispute between Hogben and R.A. Fisher over gene-environment interaction was the first of many subsequent disputes over the extent to which the primacy of the gene can be understood independently of its developmental relationship with the environment.[29] The debate on nature and nurture, the race and intelligence controversy, the heritability wars, concerns over the geneticisation of complex human traits, and arguments over the promises and perils of the human genome project all incorporate some element of disagreement over the primacy of the gene. Hogben`s attack on that primacy by appeal to the interdependence of nature and nurture has been echoed in each successive dispute. The Hogben Archive[edit] The Lancelot Thomas Hogben papers are held in Special Collections Archived 28 August 2009 at the Wayback Machine, University of Birmingham. Archive highlights include a draft of his autobiography (later edited and published by his son Adrian Hogben and his wife), correspondence, hand drawn diagrams for his books, and reflections on his life and works. (For a review of the Hogben Archive, see Tabery 2006). Works[edit] A Short Life of Alfred Russel Wallace (1823-1913), p. 64 (London, Society for Promoting Christian Knowledge, 1918)[30] Exiles of the Snow, and Other Poems (1918) An Introduction to Recent Advances in Comparative Physiology (1924) with Frank R. Winton The Pigmentary Effector System. A review of the physiology of colour response (1924) Comparative Physiology (1926) Comparative Physiology of Internal Secretion (1927) The Nature of Living Matter (1930) Genetic Principles in Medical and Social Science (1931) Nature or Nurture - The William Withering Lectures for 1933 (1933) Mathematics for the Million: A Popular Self-Educator (London, George Allen & Unwin, 1936), illustrated by Frank Horrabin, Primers for the Age of Plenty - No. 1. Re-issued in the United States by W. W. Norton & Company, Inc. (1937).[31] The Retreat from Reason (1936) Conway Memorial Lecture 20 May 1936, chaired by Julian Huxley.[32] Science for the Citizen: A Self-Educator Based on the Social Background of Scientific Discovery (London, George Allen & Unwin, 1938), illustrated by Frank Horrabin, Primers for the Age of Plenty - No. 2. Political Arithmetic: A Symposium of Population Studies (1938) editor Dangerous Thoughts (1939) Author in Transit (1940) Principles of Animal Biology (1940) Interglossa: A Draft of an Auxiliary for a Democratic world order, Being an Attempt to Apply Semantic Principles to Language Design (1943) The Loom of Language: A Guide To Foreign Languages For The Home Student by Frederick Bodmer (1944), edited by Hogben, Primers for the Age of Plenty - No. 3. An Introduction to Mathematical Genetics (1946) History of the Homeland: The Story of the British Background by Henry Hamilton (1947), edited by Hogben, Primers for the Age of Plenty - No. 4. The New Authoritarianism (1949) Conway Memorial Lecture 1949[33] From Cave Painting To Comic Strip: A Kaleidoscope of Human Communication (1949) Chance and Choice by Cardpack and Chessboard (1950) Man Must Measure: The Wonderful World of Mathematics (1955) Statistical theory. The relationship of probability, credibility and error. An examination of the contemporary crisis in statistical theory from a behaviorist viewpoint (1957) The Wonderful World Of Energy (1957)[34] The Signs of Civilisation (1959) The Wonderful World of Communication (1959) Mathematics in the Making (1960) Essential World English (1963) with Jane Hogben and Maureen Cartwright Science in Authority: Essays (1963) The Mother Tongue (1964) Whales for the Welsh — A Tale of War and Peace with Notes for those who Teach or Preach (1967) Beginnings and Blunders or Before Science Began (1970) The Vocabulary Of Science (1970) with Maureen Cartwright Astronomer Priest and Ancient Mariner (1972) Maps, Mirrors and Mechanics (1973) Columbus, the Cannon Ball and the Common Pump (1974) How The World Was Explored, editor, with Marie Neurath and Joseph Albert Lauwerys Hogben, Anne; Hogben, Lancelot Thomas; Hogben, Adrian. Lancelot Hogben: scientific humanist: an unauthorised autobiography (1998)[35] Brojevi i stvarnost istorija matematike

Jezik: Ruski Naslov: Основы адсорбционной техники Autor: Кельцев Н.В. Izdavač: Химия, Moskva Godina izdanja: 1984. Izdanje: Drugo, prerađeno i dopunjeno Povez: Tvrd Format: 21 cm Broj strana: 590 Stanje: Veoma dobro В книге углублены и развиты главы о практическом применении адсорбционных процессов, в частности для защиты атмосферы и гидросферы от загрязнений, кондиционирования и хранения продукции, о разделении газов в движущемся слое адсорбента. Адсорбционно-десорбционный цикл и вспомогательные стадии процесса рассмотрены как комплекс равновесных и кинетических закономерностей, вытекающих из данных об адсорбционном равновесии, структуре сорбентов, кинетики и динамики адсорбции. Изложены основы теории адсорбции и важнейшие процессы, реализованные на ее основе.

Autori;V.Baltic,O.Mihic.Na par mesta zaokruzivano,stiklirano k24