1 445 résultats
1982026590Vivant Univers broché Couverture Illustrée Namur 1982 48 pages en format 20 - 27 cm - nombreuses photographies en couleurs et en noir
ria9781474474689_inpHardback. New. New Book; Fast Shipping from UK; Not signed; Not First Edition; This book examines Turkey’s ethno-religious activism and power-related political strategies in the Balkans between 2002 and 2020 the period under the rule of the Justice and Development Party AKP to determine the scopes of its act hardcover
2010DADAX0739144758Lexington Books 2010-10-14. hardcover. New. 6.35x0.93x9.40. Buy with confidence. Excellent Customer Service & Return policy. Lexington Books hardcover
Mm 130x200 Collana "Biblioteca Universale Rizzoli (BUR). Scienza". Presentazione di Piero Angela. Brossura editoriale di 327 pagine. Esemplare in ottime condizioni. SPEDIZIONE IN 24 ORE DALLA CONFERMA DELL'ORDINE.
11261In 8 broché à l’italienne, couverture illustrée en couleurs, 22 pages, illustrations en couleurs dans le texte, plus la couverture, d’Henri JADOUX. Editions Fanfan-la-Tulipe. Editions des publications françaises, sans date . Bon exemplaire. Petit conte amusant. Univers féerique de TIC et Tac qui habitent dans une vieille pendule.
500328710Fleuve Noir Sans date.
2001fj867Casterman Albums Quelle Histoire ! Album cartonné 2001 In-12 (19,3 x 18 cm), album cartonné, non paginé, illustrations en couleurs ; excellent état. Livraison a domicile (La Poste) ou en Mondial Relay sur simple demande.
in-8°, 327 pp., broche, couverture illustree.— Tres bel exemplaire. [MI-27]
200473750Washington DC: DOE/NSF High Energy Physics Advisory Panel 2004. Presumed First Edition First printing. Wraps. Very good. v 1 50 pages. Illustrations most with color. Facilities Glossary. Cover has slight wear and soiling. What does "Quantum Universe" mean To discover what the universe is made of and how it works is the challenge of particle physics. Quantum Universe presents the quest to explain the universe in terms of quantum physics which governs the behavior of the microscopic subatomic world. It describes a revolution in particle physics and a quantum leap in our understanding of the mystery and beauty of the universe. Particle physics also high energy physics is the branch of physics that studies the nature of the particles that constitute matter and radiation. Although the word "particle" can refer to various types of very small objects e.g. protons gas particles or even household dust "particle physics" usually investigates the irreducibly smallest detectable particles and the fundamental interactions necessary to explain their behavior. These elementary particles are excitations of the quantum fields that also govern their interactions. The currently dominant theory explaining these fundamental particles and fields along with their dynamics is called the Standard Model. Modern particle physics generally investigates the Standard Model and its possible extensions e.g. to the newest "known" particle the Higgs boson or even to the oldest known force field gravity. In the last 30 years physicists have achieved a profound understanding of the fundamental particles and the physical laws that govern matter energy space and time. Researchers have subjected this 'Standard Model' to countless experimental tests; and again and again its predictions have held true. The series of experimental and theoretical breakthroughs that combined to produce the Standard Model can truly be celebrated as one of the great scientific triumphs of the 20th century. Now in a development that some have compared to Copernicus's recognition that the earth is not the center of the solar system startling new data have revealed that only five percent of the universe is made of normal visible matter described by the Standard Model. Ninety-five percent of the universe consists of dark matter and dark energy whose fundamental nature is a mystery. The Standard Model's orderly and elegant view of the universe must be incorporated into a deeper theory that can explain the new phenomena. The result will be a revolution in particle physics as dramatic as any that have come before. Nine interrelated questions define the path ahead. 1. Are there undiscovered principles of nature: new symmetries new physical laws 2. How can we solve the mystery of dark energy 3. Are there extra dimensions of space 4. Do all forces become one 5. Why are there so many kinds of particles 6. What is dark matter How can we make it in the laboratory 7. What are neutrinos telling us 8. How did the universe come to be 9. What happened to the antimatter DOE/NSF High Energy Physics Advisory Panel paperback
201223742Paris, Hachette, 1969 ; in-8, 252 pp., br.
in-12, 254 pp., abdt ill. in-t. n./coul., index, broché, couverture illustrée. Très bel exemplaire. [FL-13]
201223743Paris, Hachette, 1967 ; in-8, 255 pp., br.
19601001470481960 in8. 1960. Broché.
In 8? (cm ), senza rilegatura, pagg.1 cromolitografia di cm 21,2x13,4 (cm 26,5x18,2) compresi i margini bianchi), velina di protezione, ottimo e fresco es.
20091242852009 Editions Amalthée - 2009 - In-8broché, couverture illustrée - 238 pages - Envoi de l'auteur en page de grand titre (dédicacé)
Libri buone condizioni; Copertina morbida; Copertina segnata e/o leggermente rovinata; sottolineature a matita
ART5473M2006 chez Gallimard. In-4, relié, 352 pages.
199734381L'Ancre de Marine 1997 in-8° un cahier photographique central
Mm 200x255 Volume rilegato di pp. 1176, cartonato rigido, sovraccoperta editoriale illustrata, immagini in bianco e nero. Dal Darwin College della Cambridge University contributi di S. Hawking, I. Stewart, S. Schaffer e altri. Timbro commerciale al frontespizio. In buono stato. SPEDIZIONE IN 24 ORE DALLA CONFERMA DELL'ORDINE.
ria9780323417884_inpHardback. New. New Book; Fast Shipping from UK; Not signed; Not First Edition; N/A hardcover
51806610-nnew. unknown
51806610like new. unknown
2026__0198933673Oxford University Press 2026. Paperback. New. 2nd edition. 336 pages. Oxford University Press paperback
2026x-0198933673Oxford University Press 2026. Paperback. New. 2nd edition. 336 pages. 6.12x0.71x9.21 inches. Oxford University Press paperback