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Лучшие результаты

  1. Manijeh Razeghi. Fundamentals of Solid State Engineering. – М.: Springer, 2009. – 792 с.
  2. Thomas Ihn. Semiconductor Nanostructures: Quantum states and electronic transport. – М.: , 2010. – 580 с.
  3. Chihiro Hamaguchi. Basic Semiconductor Physics. – М.: , 2010. – 570 с.
  4. Handbook of Spintronic Semiconductors. – М.: , 2010. – 400 с.
  5. Oliver Gywat, Hubert J. Krenner, Jesse Berezovsky. Spins in Optically Active Quantum Dots: Concepts and Methods. – М.: , 2010. – 219 с.
  6. Richard S. Muller. Device Electronics for Integrated Circuits. – М.: , 2003. – 560 с.
  7. Charles Santori. Single–photon Devices and Applications. – М.: , 2010. – 237 с.
  8. Yarub Al-Douri. Modeling and Simulation of Physical Properties in Semiconductors. – М.: LAP Lambert Academic Publishing, 2010. – 140 с.
  9. Sanjar Ali Khan. Optoelectronic Models and Teaching Aids. – М.: LAP Lambert Academic Publishing, 2011. – 136 с.
  10. Yashika Bansal. Silicon microstrip sensors. – М.: LAP Lambert Academic Publishing, 2013. – 64 с.
  11. Tanvi Joshi. Device Modeling & Circuit Design for ZTO TFTs. – М.: LAP Lambert Academic Publishing, 2011. – 116 с.
  12. Channamallikarjuna Mattihalli. Basic Electronics. – М.: LAP Lambert Academic Publishing, 2012. – 164 с.
  13. Abdel F. Isakovic. Spin Transport in Ferromagnet-Semiconductor Heterostructures. – М.: LAP Lambert Academic Publishing, 2010. – 240 с.
  14. Elena Bruno. Diffusion and clustering of B in Si. – М.: LAP Lambert Academic Publishing, 2010. – 168 с.
  15. Pradipta Panchadhyayee and Prasanta Kumar Mahapatra. Tunneling in Electrically Biased Semiconductor Multibarrier Systems. – М.: LAP Lambert Academic Publishing, 2012. – 116 с.
  16. Aamir Shahzad and Maogang He. Computer Simulation of Complex plasmas. – М.: Scholars' Press, 2014. – 220 с.
  17. Daniele Menossi,Alessio Bosio and Nicola Romeo. Key Developments In CuInGaSe2 Thin Film Solar Cell. – М.: LAP Lambert Academic Publishing, 2014. – 212 с.
  18. Mustafa Saeed Omar and Tariq Abdul-hameed Abbas. Physical Properties of N-Type GaP Single Crystal semiconductor. – М.: LAP Lambert Academic Publishing, 2010. – 132 с.
  19. Theerapong Puangmali. Semiconductor Nanocrystals. – М.: LAP Lambert Academic Publishing, 2010. – 160 с.
  20. Himani Sharma,Shailesh N. Sharma and S. M. Shivaprasad. SYNTHESIS, PROPERTIES AND SURFACE MODIFICATIONS OF CdSe QUANTUM DOTS. – М.: LAP Lambert Academic Publishing, 2010. – 204 с.
  21. Sanjay K. Ghosh and Nilesh Nimje. Nonlinear Interactions in Acousto-optic Diffusive Semiconductor Plasma. – М.: LAP Lambert Academic Publishing, 2011. – 128 с.
  22. Ching Eng (Jason) PNG. A Brief Sojourn into Silicon Optical Modulators. – М.: LAP Lambert Academic Publishing, 2011. – 300 с.

Дополнительные результаты

  1. Kirill Ilinski. Physics of Finance: Gauge Modelling in Non-Equilibrium Pricing. – М.: John Wiley and Sons, Ltd, 2001. – 340 с.
  2. Physical Security and the Inspection Process. – М.: , 0. – 0 с.
  3. Perseus Publishing, Basic Books, Perseus Publishing. The Big Book of Business Quotations: More than 5000 Indispensable Observations on the World of Commerce, Work, Finance and Management. – М.: , 0. – 0 с.
  4. Raymond A. Serway. College Physics, Volume 1. – М.: , 0. – 0 с.
  5. M. Fogiel. The High School Physics Tutor: The Complete Study and Answer Guide to Any Textbook. – М.: Research & Education Association, 2002. – 276 с.
  6. Johannes Voit. The Statistical Mechanics of Financial Markets (Texts and Monographs in Physics). – М.: , 2003. – 0 с.
  7. Donald R. Hellison. Teaching Responsibility Through Physical Activity. – М.: , 2003. – 176 с.
  8. Melvin Lax, Wei Cai, Min Xu. Random Processes in Physics and Finance (Oxford Finance Series). – М.: , 2006. – 336 с.
  9. Richard, Otto Stahl. Back to Basic, Back to School. – М.: , 2004. – 209 с.
  10. Peter H. Dawson. Quadrupole Mass Spectrometry and Its Applications (AVS Classics in Vacuum Science and Technology). – М.: American Institute of Physics, 1997. – 349 с.
  11. David J. Magee. Orthopedic Physical Assessment (+ CD-ROM). – М.: Saunders Elsevier, 2006. – 1040 с.
  12. Peter Panus, Bertram G. Katzung, Erin E. Jobst, Suzanne Tinsley, Susan B. Masters, Anthony J. Trevor. PHARMACOLOGY FOR THE PHYSICAL THERAPIST. – М.: , 2008. – 744 с.
  13. Paolo Fornasini. The Uncertainty in Physical Measurements: An Introduction to Data Analysis in the Physics Laboratory. – М.: , 2008. – 301 с.
  14. Douglas C. Giancoli. Physics for Scientists & Engineers with Modern Physics, Vol. 3 (Chs 36-44) (4th Edition). – М.: , 2008. – 352 с.
  15. Doug Giancoli. Physics for Scientists & Engineers Vol. 3 (Chs 36-44) with Modern Physics and MasteringPhysics™ (4th Edition) (MasteringPhysics Series). – М.: , 2008. – 0 с.
  16. Jay Newman. Physics of the Life Sciences. – М.: , 2008. – 760 с.
  17. Paul M. Bellan. Fundamentals of Plasma Physics. – М.: , 2008. – 630 с.
  18. David W. Snoke. Solid State Physics: Essential Concepts. – М.: , 2008. – 640 с.
  19. Andrei L. TchougrA©eff. Hybrid Methods of Molecular Modeling (Progress in Theoretical Chemistry and Physics) (Progress in Theoretical Chemistry and Physics). – М.: , 2008. – 346 с.
  20. Sharon Wynne. FTCE Physics 6-12 (XAM FTCE). – М.: , 2008. – 0 с.
  21. Douglas C. Giancoli. Physics for Scientists & Engineers with Modern Physics. – М.: Prentice Hall, 2008. – 1328 с.
  22. Nutrition and Physical Activity: Health Information Sources in EU Member States, and Activities in the Commission, WHO, and European Networks. – М.: , 2008. – 584 с.
  23. Theory and Simulation of Hard-Sphere Fluids and Related Systems (Lecture Notes in Physics). – М.: , 2008. – 546 с.
  24. Spin Physics in Semiconductors (Springer Series in Solid-State Sciences). – М.: , 2008. – 442 с.
  25. Dale L. Bailey, Steven R. Meikle. SPECT: Basic Science and Clinical Applications. – М.: , 2008. – 576 с.
  26. Jets From Young Stars III: Numerical MHD and Instabilities (Lecture Notes in Physics). – М.: , 2008. – 178 с.
  27. Petr Hajicek. An Introduction to the Relativistic Theory of Gravitation (Lecture Notes in Physics). – М.: , 2008. – 284 с.
  28. Irving P. Herman. Physics of the Human Body (Biological and Medical Physics, Biomedical Engineering). – М.: , 2008. – 857 с.
  29. Physics And Modeling Of Tera- And Nano-Devices (Selected Topics in Eletronics and Systems). – М.: , 2008. – 192 с.
  30. Manijeh Razeghi. Fundamentals of Solid State Engineering. – М.: Springer, 2009. – 792 с.
  31. John Morrison. Modern Physics: for Scientists and Engineers. – М.: , 2010. – 488 с.
  32. Committee on Forefronts of Science at the Interface of Physical and Life Sciences, National Research. Research at the Intersection of the Physical and Life Sciences. – М.: , 2010. – 102 с.
  33. Paul Harrison. Quantum Wells, Wires and Dots: Theoretical and Computational Physics of Semiconductor Nanostructures. – М.: , 2010. – 564 с.
  34. Stefaan Tavernier. Experimental Techniques in Nuclear and Particle Physics. – М.: , 2010. – 300 с.
  35. Thomas Ihn. Semiconductor Nanostructures: Quantum states and electronic transport. – М.: , 2010. – 580 с.
  36. Magnus Wangen. Physical Principles of Sedimentary Basin Analysis. – М.: , 2010. – 544 с.
  37. Contemporary Issues in Estuarine Physics. – М.: , 2010. – 328 с.
  38. Chihiro Hamaguchi. Basic Semiconductor Physics. – М.: , 2010. – 570 с.
  39. Karl W. Boer. Electro-Optical Effects to Visualize Field and Current Distributions in Semiconductors (Springer Series in Solid-State Sciences). – М.: , 2010. – 210 с.
  40. Applied Quantum Cryptography (Lecture Notes in Physics). – М.: , 2010. – 230 с.
  41. Advanced Materials and Technologies for Micro/Nano-Devices, Sensors and Actuators (NATO Science for Peace and Security Series B: Physics and Biophysics). – М.: , 2010. – 313 с.
  42. Handbook of Spintronic Semiconductors. – М.: , 2010. – 400 с.
  43. Stephanie Reich, Christian Thomsen, Janina Maultzsch. Carbon Nanotubes: An Introduction to the Basic Concepts and Physical Properties. – М.: , 2010. – 340 с.
  44. Oliver Gywat, Hubert J. Krenner, Jesse Berezovsky. Spins in Optically Active Quantum Dots: Concepts and Methods. – М.: , 2010. – 219 с.
  45. Steven Holzner. Physics II For Dummies®. – М.: , 2010. – 384 с.
  46. Horst–Gunter Rubahn. Basics of Nanotechnology. – М.: , 2008. – 234 с.
  47. Richard S. Muller. Device Electronics for Integrated Circuits. – М.: , 2003. – 560 с.
  48. Alan F. Arbogast. Discovering Physical Geography. – М.: , 2007. – 656 с.
  49. James J. Kelly. Graduate Mathematical Physics. – М.: , 2006. – 482 с.
  50. Steven Holzner. Quantum Physics For Dummies®. – М.: , 2009. – 336 с.
  51. Steven Holzner. Physics Essentials For Dummies®. – М.: , 2010. – 192 с.
  52. Maarten Ambaum. Thermal Physics of the Atmosphere. – М.: , 2010. – 256 с.
  53. Charles Santori. Single–photon Devices and Applications. – М.: , 2010. – 237 с.
  54. Hans–Jurgen Butt. Physics and Chemistry of Interfaces. – М.: , 2006. – 398 с.
  55. Michael P. Marder. Condensed Matter Physics. – М.: John Wiley and Sons, Ltd, 2011. – 980 с.
  56. Candyce M. Jack. Veterinary Technician?s Daily Reference Guide. – М.: , 2008. – 744 с.
  57. Thomas E. Barrett. Introductory Physics with Calculus as a Second Language. – М.: , 2005. – 272 с.
  58. Alexander Eigeles Emanuel. Power Definitions and the Physical Mechanism of Power Flow. – М.: , 2010. – 288 с.
  59. H. Don Scott. Soil Physics. – М.: , 2000. – 544 с.
  60. P.V. Kamat. Semiconductor Nanoclusters - Physical, Chemical, and Catalytic Aspects,103. – М.: , 2010. – 0 с.
  61. Robert K. Willardson. High Pressure in Semiconductor Physics II,55. – М.: , 2010. – 461 с.
  62. Robert K. Willardson. High Pressure Semiconductor Physics I,54. – М.: , 2010. – 577 с.
  63. Arun Madan. The Physics and Applications of Amorphous Semiconductors. – М.: , 2010. – 545 с.
  64. PROGRAMMED. Programmed Instruction Introduction Of The Basic Principles Of ?semiconductors? 01. – М.: , 1978. – 68 с.
  65. Wai Kin Chim. Semiconductor Device and Failure Analysis: Using Photon Emission Microscopy. – М.: John Wiley and Sons, Ltd, 2000. – 288 с.
  66. W BASIC. Riss Basic Thalamic Structure And Function – Ppr O Nly. – М.: , 1973. – 0 с.
  67. SM SZE. Sze ?selected Solutions? For Semiconductor ?device S? Physics And Technology. – М.: , 1985. – 70 с.
  68. Sanborn C Brown. Basic Data of Plasma Physics – The Fundamental Data on Electrical Discharges in Gases. – М.: , 2003. – 344 с.
  69. Karl F. Kuhn. Basic Physics. – М.: , 1979. – 336 с.
  70. SC JAIN. Jain Physics Of Semiconductor ?devices? – Pro Of I Nt Workshop Nov 1981 New Delhi India. – М.: , 1982. – 820 с.
  71. ES ROBINSON. Robinson Basic Physical ?geology?. – М.: , 1982. – 686 с.
  72. Concepts Of Modern Physics. – М.: , 2002. – 576 с.
  73. The Physics Of Everyday Phenomena. – М.: , 2011. – 0 с.
  74. Mri For Technologists. – М.: , 2000. – 408 с.
  75. Physics Demystified, Second Edition. – М.: , 2011. – 576 с.
  76. Six Ideas That Shaped Physics: Unit N - Laws Of Physics Are Universal. – М.: , 2011. – 288 с.
  77. Six Ideas That Shaped Physics: Unit Q - Matter Behaves Like Waves. – М.: , 2011. – 320 с.
  78. Six Ideas That Shaped Physics: Unit R - Laws Of Physics Are Frame-Independent. – М.: , 2011. – 240 с.
  79. Six Ideas That Shaped Physics: Unit C: Conservation Laws Constrain Interactions. – М.: , 2011. – 306 с.
  80. Physical Science: Exploring Matter And Energy - Hardcover Student Text With Cd-Rom. – М.: , 2011. – 0 с.
  81. С.Н. Лукин. Visual Basic. Самоучитель для начинающих. – М.: Диалог-МИФИ, 2012. – 544 с.
  82. Yarub Al-Douri. Modeling and Simulation of Physical Properties in Semiconductors. – М.: LAP Lambert Academic Publishing, 2010. – 140 с.
  83. Kanjalochan Jena and Brinda Bhowmick. Optimization Of 3 Dimensional Tunnel Fet And Its Digital Applications. – М.: LAP Lambert Academic Publishing, 2014. – 72 с.
  84. Sheikh Rafik Manihar Ahmed,Ekta Shrivastava and Komal Prasad Dewangan Saraswati Sharma. Goggle Operated Mouse For Physically Handicapped & Paralyzed People. – М.: LAP Lambert Academic Publishing, 2013. – 124 с.
  85. Mohamed Hamed. BASICS OF ELECTRIC CIRCUITS. – М.: LAP Lambert Academic Publishing, 2011. – 296 с.
  86. Sanjar Ali Khan. Optoelectronic Models and Teaching Aids. – М.: LAP Lambert Academic Publishing, 2011. – 136 с.
  87. Alexei Kopylov and Natalia Kopylova. The Microstrip Transmission Line on Semiconductor Substrate. – М.: LAP Lambert Academic Publishing, 2012. – 60 с.
  88. Yashika Bansal. Silicon microstrip sensors. – М.: LAP Lambert Academic Publishing, 2013. – 64 с.
  89. Tanvi Joshi. Device Modeling & Circuit Design for ZTO TFTs. – М.: LAP Lambert Academic Publishing, 2011. – 116 с.
  90. Channamallikarjuna Mattihalli. Basic Electronics. – М.: LAP Lambert Academic Publishing, 2012. – 164 с.
  91. Sajal K. Paul and Prasanta Kumar Basu. Electronic and Optical Processes in Semiconductors. – М.: LAP Lambert Academic Publishing, 2011. – 160 с.
  92. Ephrem Tadesse. Basic Welding and Practice. – М.: LAP Lambert Academic Publishing, 2013. – 96 с.
  93. Scott Harrington. APPLICATION OF SEMICONDUCTOR PHYSICS TO CORROSION AND ELECTROCHEMISTRY. – М.: LAP Lambert Academic Publishing, 2010. – 148 с.
  94. Selvakumar Sudhakar. Epitaxy of compound semiconductors and irradiation technology. – М.: LAP Lambert Academic Publishing, 2011. – 164 с.
  95. Alamgir Khan and Salahuddin Khan. Basics of Health and Physical Education. – М.: LAP Lambert Academic Publishing, 2014. – 68 с.
  96. Mandeep S. Nathial. Foundation Aspects of Physical Education. – М.: LAP Lambert Academic Publishing, 2012. – 96 с.
  97. Phitak Lekkla. Impact of Physical Education on the Attitudes and Exercise Behaviour. – М.: LAP Lambert Academic Publishing, 2010. – 260 с.
  98. Daniel Debebe Asgelete. Squatter Settlements along the River Banks of Addis Ababa. – М.: LAP Lambert Academic Publishing, 2012. – 108 с.
  99. Rajendra Ahire. Physical properties of calcogenide and their possible applications. – М.: LAP Lambert Academic Publishing, 2014. – 188 с.
  100. Anil Kumar Yadav. Anisotropic Models of Accelerating Universe. – М.: LAP Lambert Academic Publishing, 2011. – 128 с.
  101. Amit Srivastava,Debanand Sa and Shri Singh. Physical Properties of Achiral Liquid Crystals. – М.: LAP Lambert Academic Publishing, 2011. – 168 с.
  102. Fouad A. Majeed. Lecture Notes on Atomic and Molecular Physics. – М.: LAP Lambert Academic Publishing, 2011. – 116 с.
  103. Ehsaneh Daghigh Ahmadi. Photonics Devices and Semiconductor Physics. – М.: Scholars' Press, 2013. – 160 с.
  104. Abdel F. Isakovic. Spin Transport in Ferromagnet-Semiconductor Heterostructures. – М.: LAP Lambert Academic Publishing, 2010. – 240 с.
  105. Shalini Vishwanath Patil. Photo-Mechnical Effect. – М.: LAP Lambert Academic Publishing, 2013. – 140 с.
  106. Anita Kanwar. Text Book of Plasma Physics. – М.: LAP Lambert Academic Publishing, 2013. – 128 с.
  107. Yucel Y?ld?r?m. Spin-Fermion Models For Magnetic Semiconductors and High-Tc Cuprates. – М.: LAP Lambert Academic Publishing, 2013. – 132 с.
  108. Numan Akdogan and Hartmut Zabel. Origin of Magnetism in Oxide-Based Diluted Magnetic Semiconductors. – М.: LAP Lambert Academic Publishing, 2014. – 124 с.
  109. Mitu Chandra Acharjee and Sujaul Chowdhury. Nanostructure Physics of symmetric rectangular double barrier. – М.: LAP Lambert Academic Publishing, 2010. – 184 с.
  110. M Sarwer Hossain and Sujaul Chowdhury. Nanostructure Physics of single rectangular tunnel barrier. – М.: LAP Lambert Academic Publishing, 2010. – 224 с.
  111. Ramachandran Saravanan. Experimental Charge Density - Semiconductors, oxides and fluorides. – М.: LAP Lambert Academic Publishing, 2010. – 216 с.
  112. Elena Bruno. Diffusion and clustering of B in Si. – М.: LAP Lambert Academic Publishing, 2010. – 168 с.
  113. Pradipta Panchadhyayee and Prasanta Kumar Mahapatra. Tunneling in Electrically Biased Semiconductor Multibarrier Systems. – М.: LAP Lambert Academic Publishing, 2012. – 116 с.
  114. Cruceru Madalina. Radiation Detection Systems With Applications in High Energy Physics. – М.: LAP Lambert Academic Publishing, 2012. – 84 с.
  115. Aamir Shahzad and Maogang He. Computer Simulation of Complex plasmas. – М.: Scholars' Press, 2014. – 220 с.
  116. Yikuan Wang. Exciton-Plasmon interactions in metal-semiconductor nanostructures. – М.: LAP Lambert Academic Publishing, 2012. – 116 с.
  117. Ali Mohammed,A. M. Mousa and K. H. Hussain. Physical and Sensing Properties of Zinc Oxide Thin Films. – М.: LAP Lambert Academic Publishing, 2012. – 148 с.
  118. Naser Mahmoud,Zainuriah Hassan and Husnen R. Abd. Design of Metal-Semiconductor- Metal Photodetector. – М.: LAP Lambert Academic Publishing, 2012. – 76 с.
  119. Daniele Menossi,Alessio Bosio and Nicola Romeo. Key Developments In CuInGaSe2 Thin Film Solar Cell. – М.: LAP Lambert Academic Publishing, 2014. – 212 с.
  120. Shrinivasrao Kulkarni,Ramakrishna Damle and M. Ravindra. Radiation Induced Effects in Semiconductor Devices. – М.: LAP Lambert Academic Publishing, 2013. – 200 с.
  121. Petronela Garoi. On the study of physical properties of some heterojunctions. – М.: LAP Lambert Academic Publishing, 2014. – 180 с.
  122. Andrey Makeev. Formation of the power spectrum in the accreting compact X-ray objects. – М.: LAP Lambert Academic Publishing, 2010. – 116 с.
  123. Mustafa Saeed Omar and Tariq Abdul-hameed Abbas. Physical Properties of N-Type GaP Single Crystal semiconductor. – М.: LAP Lambert Academic Publishing, 2010. – 132 с.
  124. Theerapong Puangmali. Semiconductor Nanocrystals. – М.: LAP Lambert Academic Publishing, 2010. – 160 с.
  125. Oluwole Oyewande. Thermal and Statistical Physics. – М.: LAP Lambert Academic Publishing, 2015. – 104 с.
  126. Rugmini Radhakrishnan. Nuclear Physics and Environmental Impact Assessment of Radiation. – М.: LAP Lambert Academic Publishing, 2011. – 164 с.
  127. Ibrahim Idris Suliman. Patient Dosimetry and Quality Control in Diagnostic Radiology. – М.: LAP Lambert Academic Publishing, 2011. – 180 с.
  128. Dereje Hailu,Endashaw Bekele and Kassahun Tesfaye. Diversity of East African Physic Nut (Jatropha curcas L.) Germplasm. – М.: LAP Lambert Academic Publishing, 2013. – 124 с.
  129. Samuel Mekonen. Initial Spacing and Physical Properties of Wood. – М.: LAP Lambert Academic Publishing, 2011. – 72 с.
  130. Amrut Gaddamwar. Physical Chemistry. – М.: LAP Lambert Academic Publishing, 2012. – 224 с.
  131. Kesatebrhan Haile Asressu. Key Lecture Notes on Basic Organic Chemistry. – М.: LAP Lambert Academic Publishing, 2012. – 284 с.
  132. Himani Sharma,Shailesh N. Sharma and S. M. Shivaprasad. SYNTHESIS, PROPERTIES AND SURFACE MODIFICATIONS OF CdSe QUANTUM DOTS. – М.: LAP Lambert Academic Publishing, 2010. – 204 с.
  133. Kavindra Kumar Kesari,H. N. Verma and Jitendra Behari. Physical Methods in Wastewater Treatment. – М.: LAP Lambert Academic Publishing, 2011. – 152 с.
  134. Anuja Datta. Tailoring of Properties of Sulfide Semiconductors in Nanoforms. – М.: LAP Lambert Academic Publishing, 2010. – 232 с.
  135. Tariq Abdul-Hameed Abbas and Jala Muhammad Ahmad. Effect of Cu Doping and Annealing on Physical Properties of CdS Films. – М.: LAP Lambert Academic Publishing, 2013. – 96 с.
  136. Sanjay K. Ghosh and Nilesh Nimje. Nonlinear Interactions in Acousto-optic Diffusive Semiconductor Plasma. – М.: LAP Lambert Academic Publishing, 2011. – 128 с.
  137. Dhruba Pattadar,James Barai and Shawtik Das. Hydrothermal Synthesis of ZnO Nanoparticles. – М.: LAP Lambert Academic Publishing, 2012. – 116 с.
  138. Brian Crabb. Reductive Physicalism and Phenomenal Properties. – М.: LAP Lambert Academic Publishing, 2010. – 316 с.
  139. Polash Ranjan Dey and Dr. Sujaul Chowdhury. Longitudinal magnetic field applied to Nanostructure Physics. – М.: LAP Lambert Academic Publishing, 2010. – 288 с.
  140. Eleazer Ekwue. Instructional Strategies For Online Physics based on Learning Styles. – М.: LAP Lambert Academic Publishing, 2014. – 260 с.

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Юля
Елена, тогда нас все устраивает давайте договоримся как нам встретиться с человеком. Огромное спасибо.