Master's in Natural Sciences in Russia

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Natural Sciences

In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.

Natural sciences are a scientific branch that deals with observations, understanding and predictions of natural phenomena. It is a diverse field and includes disciplines such as biological science, physics, chemistry, Earth science and astronomy.

Russia or, also officially known as the Russian Federation, is a country in northern Eurasia. Education in Russia is provided predominantly by the state and is regulated by the Ministry of Education and Science. In Russia, it takes about 70 % of training time for the contact lessons with a teacher, the rest 30 % of the workload are devoted to the independent study of the material.

Master's Program in Natural Sciences in Russia

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Master in Renewable, Thermal and Power Engineering

National Research University
Campus Full time September 2017 Russia Moscow

National Research University “Moscow Power Engineering Institute” provides Master Degree in Renewable, Thermal and Power Engineering according to Russian State Educational Standard [+]

Top Master Degrees in Natural Sciences in Russia. National Research University “Moscow Power Engineering Institute” provides Master Degree in Renewable, Thermal and Power Engineering according to Russian State Educational Standard in the following directions: - Electric Power Engineering and Electrical Engineering - Thermal Power Engineering and Heat Engineering - Nuclear Power Engineering and Thermophysics - Power Engineering Machinery - Mechatronics and Robotics - Applied Mechanics WHY SHOULD YOU CHOOSE MPEI MPEI students have a chance to study at one of the most prestigious universities of Russia according to numerous rankings and surveys. For more than eighty years of history MPEI have trained a huge number of the qualified engineers, prominent scientists who were standing at the origins of many technical achievements, in particular, of laser creation. At MPEI the Nobel Prize winners A.D. Sakharov and P.A. Cherenkov worked in different periods. In the 20th century in the Special Design Bureau of MPEI, which possesses its own Center of Deep Space Communication, radio images of the Venus surface and a reverse side of the Moon were obtained for the first time. Among the most famous graduates of MPEI there are the ex-Chairman of the State Council of China Li Peng and the ex-President of Romania Ion Iliescu, Ministers of Engineering and heads of the engineering companies of many countries of the world. MPEI partners in science and education include about 140 foreign universities, and such well-known companies like ABB, Siemens, Schneider Electric, EPRI, Skoda, Samsung and others. Getting the unique training in any chosen field, MPEI graduates never have problems with subsequent employment and realize themselves in any chosen spheres. LANGUAGE OF EDUCATION Training is organized in Russian language. Those students who need to learn Russian are invited to MPEI Preliminary course which provides training of Russian language during 1 academic year. ACCOMMODATION CONDITIONS MPEI foreign students are provided with accommodation in MPEI hostel. The hostel under security surveillance has two-room blocks with a bathroom and a toilet in each block. Rooms are for two or three persons. There are also hostels of corridor type with double rooms. Rooms are equipped with furniture, bed linen is also included. On each floor of a hostel there is a common kitchen and a restroom. Internet connection can be provided for additional fee. In MPEI campus there are additional services like laundry, shops, repair offices, post-office, cultural centers, cafes and restaurants, etc. Accommodation fee is about 100 USD per month. INSURANCE All foreign students must have medical insurance for the whole period of education. MPEI works with insurance company which provides the most comprehensive insurance at a rate of 200 USD per year. [-]

Master in Applied Mathematics and Stochastics

Novosibirsk State University
Campus Full time November 2017 Russia Novosibirsk

This is a two-year English-taught programme at the Master level. It is aimed at training and developing research skills in a number of areas of modern mathematics and statistics, and in their applications. At the end of the studies, students are awarded [+]

This is a two-year English-taught programme at the Master level. It is aimed at training and developing research skills in a number of areas of modern mathematics and statistics, and in their applications. At the end of the studies, students are awarded a Master Degree from Novosibirsk State University, with an approval by the Russian Ministry of Science and Education. The programme was started in October 2014 in two directions. These were Discrete Mathematics and Combinatorial Optimization, and Numerical Statistical Modelling. GENERAL OVERVIEW. For the year 2017/2018 we propose the five main directions: - Probability and Statistics, - Numerical Statistical Modelling, - Numerical Methods, - Discrete Mathematics and Combinatorial Optimization, - Big Data Analytics with a number of applications that include actuarial science, information security, and transport logistics. As well, in 2017/2018 we expect to expand the list of directions towards mechanics and mechanical engineering. The Programme is research-oriented. Each semester a student is supposed to devote half of the time to a research project, to be done at one of institutes of the Russian Academy of Sciences. The 2nd year of studies is completed by a Master Dissertation. Lecture courses and research supervision will be provided by professors of the Novosibirsk State University and leading researchers from institutes of the Russian Academy of Sciences. The lists of prospective courses, of potential lecturers and supervisors, and further related details may be found at our webpage. ACCOMMODATION: students will have an option of accommodation in a modern student's hostel with a low living cost. FORMAL ENTRANCE REQUIREMENTS: BSc in mathematics/applied mathematics from a recognized university (with sufficiently high scores – equivalent to British 2.1 Degree) FEES: US$ 5.200 per year. APPLICATION PROCEDURE - Step 1. Submission of application form. - Step 2. Expertise of the submitted documents by a peer’s commission. - Step 3. Given acceptance, a student is contacted by the department of foreign affairs at the Novosibirsk State University to start the Visa procedure. IMPORTANT DATES (preliminary schedule): - 15 May 2017 – the date of submission of a graduate certificate, TOEFL or its equivalent, curriculum vitae, and some recommendation letter. - 25 June 2017 – the admission date for the programme. This date is not an ultimate deadline. Depending on circumstances it may be reasonably prolonged. [-]

Master in Quantum Physics for Advanced Materials Engineering

National University of Science and Technology MISiS
Campus Full time October 2017 Russia Moscow

Master's program "Quantum Physics for Advanced Materials Engineering" is devoted to the study of new physical phenomena in nanostructured materials and quantum devices created or discovered during the last 20-30 years of research for components for quantum electronics. [+]

Top Master Degrees in Natural Sciences in Russia. The Master's program Quantum Physics for Advanced Materials Engineering is devoted to the study of new physical phenomena discovered in nanostructured materials and quantum devices created last 20-30 years in the search for components for quantum electronics. At the same time the program addresses the basic physical principles of electronic systems and devices of quantum electronics, as well as some important manufacturing techniques and measurements of physical and chemical characteristics of quantum-sized structures and materials. The program is designed for students trained in the amount of university courses in general physics and introduction to theoretical physics for a Bachelors, which includes the courses: theoretical mechanics and the theory of elasticity,electrodynamics, quantum mechanics and statistical physics. The program does not involve a starting special training of students in the condensed matter physics,, because it includes basic courses in: 1) modern quantum physics of solids, 2) electronic theory of metals, 3) technology and materials of quantum electronics, 4) spectroscopic methods of materials characterization. The medium of instruction for this program is English. The urgency and necessity A distinctive feature of this Master’s program is to focus on the study of new physical phenomena in quantum-sized materials and devices, all of which are overlooked in traditional courses of solid state physics. These objects of study appeared in the last 20-30 years due to development of tools and methods of measurement and conversion of properties of materials in the nanometer range of distances. Although the physical phenomena and processes observed in the new materials and nanostructures are described in the framework of well-established fundamental concepts of quantum and classical physics, they could not become an object of study of traditional training courses on condensed matter physics, which were created in the middle of the twentieth century, simply because most of these facilities and adequate measurement tools for their research were not yet developed. The circle of new physical phenomena studied in special courses of this master's program includes the effects of size quantization in low-dimensional structures, in particular: the quantum Hall effect, quantum charge fluctuations, Coulomb blockade and Landauer quantum conductance of the contacts of atomic size, the Wigner-Dyson statistics of electronic energy levels in the nanoclusters, the Rabi oscillations in two-level systems, the spectra of quantum dots, wells and wires in a magnetic field, phonons in fractal structures, Einstein modes in thermoelectric semiconductor materials with complex crystal cell, etc. Developing skills This master's program enables students to orient themselves in the modern scientific and applied research and development of quantum-sized materials and devices through the acquisition of skills in both theoretical calculations in the field of quantum physics of nanosystems as well as experimental measurements using modern equipment in the field of electron and scanning probe microscopy and spectroscopy. Basic Courses 1) Modern quantum physics of solids (1 st semester) introduces into: different aspects of modern solid state physics, including phenomena in the objects of atomic size, including those considered in the following topics: quantum Hall effect, graphene and carbon nanotubes, Landauer quantum conductance of atomic size contacts, quantum magnets (spin chains), magnetism of frustrated systems, magnetic semiconductors, including silicon doped with manganese, colossal magnetoresistance, quantum phase transitions, the low-energy excitations in disordered media and fractal structures, granular conductors, metals with heavy fermions, the Kondo semiconductors, quasicrystals and structurally complex alloys; 2) Electron theory of metals (1 st semester) introduces into: basic methods and results of the electron theory of metals, that are in the focus of the current research of quantum properties of solids and use the concept of Landau quasi-particles and Fermi-liquid theory to describe the properties of normal metals; description of phenomena in superconductors, based on the concept of spontaneous symmetry breaking and Bose-condensation of Cooper pairs in the framework of the theory of Bardeen, Cooper and Schrieffer, with application of the equations of the Ginzburg and Landau; foundations of the Green's functions technique and its applications for prediction and interpretation of experiments involving the scattering of photons, neutrons, muons and measuring the current-voltage characteristics of the tunneling microcontacts; 3) Technologies and Materials of Quantum Electronics (2 nd semester) introduces into: physical properties of basic semiconductor materials and methods of nanotechnology in relation to the creation of the base elements of nanoelectronics, optoelectronics, quantum devices, in particular, including the study of changes in the electrical and optical properties of bulk materials when they are produced in the form of low-dimensional structures (quantum wells, wires and dots) due to the effects of quantum-size effect; with the emphasis on C, Si, solid solutions GeXSi1 -X , compounds and solid solutions А2В6 and A3B5; also considered are basic technologies of manufacturing of quantum-sized structures: liquid phase epitaxy, molecular beam epitaxy, vapor phase epitaxy of organometallic compounds, nanolithography, self-organization of quantum wires and dots; outline of the use of low-dimensional structures in the devices of micro-and nanoelectronics; also considered are emitting diodes and lasers for the infrared, visible and ultraviolet spectral regions, photodetectors and transistors; 4) Spectroscopic methods for analysis of materials (1 st semester) introduces into: the fundamentals of modern spectroscopic methods of analysis of materials, such as Auger electron spectroscopy (AES), X-ray photoelectron spectroscopy (XRF), secondary ion mass spectrometry (SIMS), transmission electron microscopy (TEM), scanning ion microscopy (SIM), i.e. methods that allow us to investigate elemental, chemical composition, atomic structure, structural perfection of the surfaces of solids, surface layers, interphase boundaries and nanostructures. Special Courses familiarize students with basic modern areas of theoretical physics research in nanosystems, in including low-dimensional systems. 1) Quantum electronic properties of nanosystems (3rd semester) introduces into: theory of electronic quantum phenomena in nanosystems: random Hamiltonian matrices of Wigner-Dyson and thermodynamics of nanoclusters, Peierls transitions in quasi one-dimensional conductors, transitions of Ising and Berezinskii Kosterlitz-Thouless in two-dimensional lattice systems, the theory of spin fluctuations in one-dimensional Ising chain, the theory of Landauer quantum conductance of quantum point contact; 2) Physics of liquid-crystal membranes (3rd semester) introduces into: physics of liquid crystals and its applications to the theory of lipid membranes, in particular, into fundamentals of elasticity of liquid crystals adapted to describe bilayer membranes, thermodynamics and kinetics of phase transitions in multicomponent systems, Gibbs phase diagrams and various two-dimensional lattice models; basic theory of wetting, adapted to biomembranes, mechanisms of protein-lipid interactions and conditions of formation of macroscopic wetting films, the dependence of the rate of cellular processes on the energy of forming membrane structures using exo-and endocytosis as example; 3) Physics of Low-Dimensional Systems (2 nd semester) introduces into: low-dimensional systems - quasi-two-dimensional quantum wells, one-dimensional quantum wires and quasi zero-dimensional quantum dots, in particular, with the quantum-mechanical phenomena in such systems and the influence of external electric and magnetic fields, methods of computer modeling and calculations from first principles of parameters of the low-dimensional systems: resonant frequencies, the energy spectra and wave functions of electronic and excitonic systems with carriers incoupled quantum wells and coupled quantum dots; evolution of the spectrum and restructuring of the spin states of molecules consisting of horizontally and vertically coupled quantum dots; 4) Experimental Methods in the physics of low-dimensional systems (2-nd semester) introduces into: methods of experimental studies of transport and magnetic properties of solids, including: galvanomagnetic effects (magnetoresistance, Hall effect, de Haas-van Alphen effect, Shubnikov - de Haas effect), electrodynamics of metals, nuclear magnetic resonance, nuclear gamma resonance; equipment and experimental techniques of measurement of weak signals in the presence of noise, resistance measurement, thermometery, application of high magnetic fields; methods of choice of appropriate measurement technology for research, experimental design, design scheme of the experimental setup, processing and interpretation of the results of the experiment, the course also teaches methods of analysis of surfaces of solids, including: classification of methods of analysis of materials surface, ion-beam probe (inverse Rutherford scattering, channeling, mass spectroscopy of secondary ions), electron-beam probe (characteristic loss spectroscopy, secondary electron emission, Auger spectroscopy), electromagnetic radiation probe, tunneling microscopy; 5) Phase diagrams of multicomponent systems (3rd semester) introduces into: analysis of phase diagrams of multicomponent systems, including applied to real materials and processes based on software packet calculation methods “Thermo-Calc”, as well as the original techniques focused on the use of widespread program EXCEL; methods of solution of the following tasks: analysis of phase composition of multicomponent materials at different temperatures; graphical estimate and calculation of the liquidus, solidus, and other critical temperatures of phase transformations; construction of insulated and polythermal cuts of triple, quadruple and five fingers systems using both graphical and computational methods; calculation of the mass and volume fractions of phases in multicomponent systems, a critical analysis of information on phase diagrams and finding errors in the prediction of phase equilibria in unexplored multicomponent systems. 6) Electronic properties of quantum confined semiconductor heterostructures (2–nd semester) introduces into: physics of low dimensional quantum confined heterostructures, that are the structures where the carrier motion is restricted in one or more directions at the distances of the order of de Broglie wavelength; electron transport and optical transitions in low dimensional electronic systems, and the difference between the electronic properties of low dimensional structures and those of bulk semiconductors; applications of quantum dots and wells in photovoltaics and laser techniques. 7) Introduction to path integral methods in condensed matter physics (2–nd semester)motivation and contents: The idea of the course is to get students acquainted with path integral approach to problems of contemporary condensed matter physics. The aim is to give students firm command of this approach via carefully selected examples and problems. The course contains mathematical digression into complex calculus, the basics of second quantization, field quantization, path integral description of quantum statistical mechanics, finite temperature perturbation theory, theory of linear response, basics of renormalization group analysis and effective field theory. The final project consists of the theoretical description of single electron transistor via effective Ambegaokar-Eckern-Schoen action. Courses in experimental research methods help students to get an idea of materials for prospective elementary base of quantum electronics, as well as on the possibilities of measurement methods: 1) spectroscopy, 2) tunneling microscopy, 3) scanning ion microscopy, 4) the accuracy, sensitivity, locality, and applicability of different measurement methods for the study of nanomaterials. Focus of lecture courses are new materials and modern quantum devices. List of new materials studied in the course of the program includes: 1) graphene and carbon nanotubes 2) quantum magnets - atomic spin chain 3) magnetic semiconductors - silicon doped with manganese; 4) semiconductor materials based on solid solutions of germanium in silicon 5) disordered media and fractal structures – aerogels, granular conductors, 6) heavy fermionic metals, the Kondo semiconductors, 7) quasicrystals and structurally complex thermionic materials based on bismuth telluride. Studied electronic devices and appliances include: 1) tunnel contact of atomic size, 2) magnetic switches on the basis of manganites with colossal magnetoresistance 3) Josephson junctions 4) emitting diodes and lasers for the infrared, visible and ultraviolet, photodetectors, transistors. Studied manufacturing technologies of quantum-sized materials: 1) liquid-phase epitaxy, 2) molecular-beam epitaxy, 3) vapor-phase epitaxy from organometallic compounds, 4) nanolithography, 5) self-organization of quantum wires and dots. Admission Admission to International Master’s Programs at MISiS is open to both Russian and international students. Given that all classes will be conducted in English, we recommend that nonnative speakers of English achieve a TOEFL score of at least 525 (paper based) or 200 (computer based) prior to admission. To apply for a two-year Master’s program at MISiS, the applicant must hold a Bachelor’s degree in a related field. Upon the completion of the program of study at MISiS, the applicant will receive a Russian State diploma and a European Diploma Supplement. Admission Deadline The deadline to submit the application for Fall 2017 is 10 May 2017. [-]

MSc in Mathematics

Higher School of Economics
Campus Full time September 2017 Russia Moscow

Training professional researchers and experts in mathematical sciences in Moscow, one of the world's capitals of mathematics. [+]

This programme trains professional researchers in mathematical sciences and experts in mathematical education. Moscow has long been considered one of the world’s capitals for mathematics, and this rigorous programme is an opportunity to study under leading experts in the field.

In the first year, students construct individual study plans according to their own interests and goals. Under the supervision of faculty advisors, students complete a course project at the end of their first year and submit a Master’s thesis at the end of their second.

Graduates are well prepared to enter PhD programmes, have their own independent research agendas and experience, and possess teaching experience at the university level. ... [-]


Master in Chemical Engineering

Volgograd State Technical University
Campus Full time September 2017 Russia Volgograd

Chemical engineering is a complex of methods of chemical and oil raw-materials processing into the products of household and technical purposes. [+]

Top Master Degrees in Natural Sciences in Russia. Chemical engineering is a complex of methods of chemical and oil raw-materials processing into the products of household and technical purposes. Such products are: petroleum, diesel, machine oils, washing agents, plant and animal protection products from pests and illnesses, semi products for plastic production, automobile tires, building and finish materials. Master’s Program for those who have Bachelor degree takes 4 semesters. Specialists on chemical engineering have a wide knowledge which lets to work at large, medium and small enterprises which produce various chemical products. During their training students undertake an internship at the leading chemical enterprises where they learn production of the most important large-tonnage chemical products of organic synthesis; production management, economic and ecology issues. Specialists in oil processing have knowledge on all basic issues of fuel and oil field, on gases processing. They are well educated on chemical and engineering issues of oil and gas processing; acquainted to all basic processes of oil processing. Internships are being held at the largest and world-known oil processing enterprises, such as “LUKOIL”, where students can learn advanced technologies on oil processing, developed by such world leaders as “UOP”, “SHELL”, etc. More than 2000 Russian specialists and 200 foreign engineers and Masters for 26 countries have been trained by UNIVERSITY on the program “Chemical technology”. Foreign graduates successfully work in Afghanistan, Bangladesh, Columbia, India, Lebanon, Nepal, Nicaragua, Nigeria, Syria, Vietnam and others. The obtained education helped some of the graduates to start and develop their own chemical business. Many international graduates succeeded in science – defended theses in Russia and some other European countries. [-]

Master - Offshore and Coastal Engineering

Far Eastern Federal University
Campus Full time September 2017 Russia Vladivostok

The two-year Master of Science program in Offshore and Coastal Engineering was designed to meet the growing demand for skilled professionals in the offshore and coastal construction industry. The [+]

Master - Offshore and Coastal Engineering

The two-year Master of Science program in Offshore and Coastal Engineering was designed to meet the growing demand for skilled professionals in the offshore and coastal construction industry. The program consists of general principles and methods that give students the tools to meet and solve challenges on an advanced engineering level, not only inside their area of specialization. Projects and problems in the program are often taken from the offshore industry, and students gain valuable experience due to the School's close contacts with the industry.

Educational objectives of the program

To give students a high level of understanding and advanced analytical skills in key areas of offshore and coastal engineering including: exploration of ocean resources, development of infrastructure of offshore oil and gas industry and marine transport;  to satisfy students’ personal needs in qualified professional education on the basis of common cultural and professional competences  including Federal State Educational Standards and requirements of job offers. ... [-]

Master in Mathematics and Computer Science

National Research Lobachevsky State University of Nizhni Novgorod
Campus Full time October 2017 Russia Nizhny Novgorod

The programme aims at developing professionals for systems integrators and software companies, large and medium-sized enterprises. [+]

Master’s degree programme in Mathematics and Computer Science aims at developing professionals for systems integrators and software companies, large and medium-sized enterprises with their own IT departments, research organizations conducting research and development in the field of high technology.

Graduates of the programme are specialists in the field of mathematics and computer science. The Master's programme focuses on computer modeling, simulation and visualization of technological and economic processes. This allows graduates to work not only in the field of information technology where they need to process and present the information, but also in areas requiring the development of mathematical models, data analysis, developing computational algorithms and their implementation. ... [-]

Master' in Biological Engineering

Siberian Federal University
Campus Full time October 2017 Russia Krasnoyarsk

The Program is aimed at students having background in natural science and wishing to master contemporary methodology of scientific research in order to pursue career in the field of biological engineering. The scientific projection in biological engineering aims to encourage research skills by students through an individual research project in biology, biological engineering or biophysics. [+]

The Program is aimed at students having background in natural science and wishing to master contemporary methodology of scientific research in order to pursue career in the field of biological engineering. The scientific projection in biological engineering aims to encourage research skills by students through an individual research project in biology, biological engineering or biophysics. Students will follow all steps of research process from the problem statement to the achievement and analysis of experimental results. Master’s Program “Biological engineering” is delivered by an experienced academic staff having a comprehensive background in fundamental research and practical applications in industries. The program is designed with emphasis on practical skills development and students work in the modern and well-equipped SibFU Laboratory of Bioluminescent Biotechnologies (in Russian). This laboratory was established through the collaboration of the world’s strongest team of scientists engaged in fundamental research of light emission by living organisms, i. e. bioluminescence, and the Nobel Laureate Professor Osamu Shimomura. Training Methods: lectures, lab experiments, case studies and group discussions. Teaching staff: SibFU Professors and visiting lecturers from universities of Russia, USA, Italy, China, Spain, UK and other countries. The major part of the Program’s training takes place at the modern and well-equipped SibFU Laboratory of Bioluminescent Biotechnologies, led by Nobel Laureate Professor Osamu Shimomura, in one of the world’s strongest team of scientists engaged in fundamental research of light emission by living organisms, i.e. bioluminescence. Research projects While following the Program students have to deal with the phenomenon of bioluminescence in all its aspects: from genetic and molecular to evolutionary and ecological. Master’s research projects are focused on studying the chemical nature of light emission by new luminous species (fungi, soil worms, coelenterates, bacteria, etc.), modelling the enzyme behavior in cell hyaloplasm, development of new recombinant bioluminescent organisms and of a new generation of bioluminescent biosensors for environmental monitoring and medical diagnostics as well as on other fundamental and applied topics. Entry requirements: BSc or MSc degree in Biology, Chemistry or Environmental Sciences (transcript of records), good command of English (certificate or other document) Accommodation: On-campus accommodation is available in double and triple-occupancy rooms (€ 20 per month). Practicalities: Airport transfer, invitation letter for a Russian study visa and an optional survival course of Russian as a foreign language are provided by the University. [-]

Master in Laser Measuring Technology

Saint Petersburg Electrotechnical University
Campus Full time September 2017 Russia St. Petersburg

Students get knowledge of quantum electronics and laser techniques. [+]

Top Master Degrees in Natural Sciences in Russia. The structure of degree program consists of advanced professional studies, elective studies and a Masters Thesis. Students get knowledge of quantum electronics and laser techniques. They get skills of practical work with modern laser techniques and laser measurement equipment, ability of carrying out science research during development of new laser measuring devices and systems. As a result we achieve competitiveness of our graduates and their job placement in prestigious research institutes and firms. Program curriculum includes the following advanced courses: Wave Optics Optical systems and components Theoretical Principles of Quantum Devices Laser systems Fiber and Integrated Optics Laser measurement systems Methods and means of laser radiation control Laser and fiber optic technology in navigation systems Optoelectronics Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master in Environmental Policy

Sciences Po
Campus Full time

The master in Environmental Policy at PSIA is a multidisciplinary degree training a new generation of policy makers, project managers, analysts, auditors of environmental issues at the global level. [+]

Master in Environmental Policy The master in Environmental Policy at PSIA is a multidisciplinary degree training a new generation of policy makers, project managers, analysts, auditors of environmental issues at the global level. The degree provides an introduction to the state of knowledge in environmental sciences and techniques allowing students to understand the main constraints in policy- making and strategic decision-making processes both in the public and private sectors. Scientific Advisor Laurence Tubiana is the Scientific Advisor of the PSIA Master in International Environmental Policy. She is France's Special Representative for the 2015 Paris Climate Conference, and also the founder of the Institute for Sustainable Development and International Relations (IDDRI) in Paris. Laurence Tubiana is member of several scientific boards of main research institutions such as the French Agricultural Research Centre for International Development (CIRAD), the India Council for Sustainable Development and the China Council for International Cooperation on Environment and Development. From 1997 to 2002, she served as senior advisor to the Prime Minister, Lionel Jospin, on environmental issues and conducted a number of international negotiations on this subject. Environment is today's foremost global issue, which touches all segments of the world population, and all dimensions of global affairs. PSIA approaches environmental policies and politics from all angles, in order to train the most competent leaders in the field. Ghassan Salamé, Dean of PSIA Main orientations and specific features The curriculum introduces the main concepts at stake in environmental sciences and sustainable development through high profile introductory classes in earth sciences, biodiversity and climate change. Students intellectually master public and private strategies on environmental and sustainable development issues in the global arena and acquire analytical skills with a capacity to serve as a mediator between scientists and private operators, managers or public officials. The curriculum focuses on practical and technical skills in policy and project design, risk analysis, project management, auditing, policy design, management and evaluation in the fields of environment, health, nutrition, etc… Students are trained in the most recent methods in the study of biodiversity, climate change, and the 'Earth system' (ecology, climatology, modelling, etc.) on the one hand, as well as an introduction to the legal, economic and social aspects of sustainable development on the other hand. After a first year based on the acquisition of knowledge, the second year is aimed at professionalising their training: six months of internship in the environmental field or in sustainable development, and another six months during which students will either reinforce their practical knowledge (management, financial and accounting skills, strategy) or prepare for a PhD. Career opportunities The program enables our graduates to work for international and national agencies, national ministries, and local administrations for positions involving formulation, management and assessment of public policies and projects concerning environment and sustainable development. In the private sector, prospective employers are NGOs, consulting groups, banks investing in sustainable development, companies involved in economic sectors that need to integrate an environmental perspective (industry, transportation, housing, energy, the food industry, etc.) recruit our graduates whether they belong to the "green" business or the classical economy. Graduate can also aim at working in the innovation sector for applied research projects as project designer and managers. Other careers include journalism and communication on environmental issues for media, internal and external communication services for companies, and consulting in communication for both private and public institutions on the environmental and social aspects of sustainable development (social responsibility). [-]

Master - Ecology and Environment Protection

Vladivostok State University of Economics and Service
Campus Full time September 2017 Russia Vladivostok

Ecology and environment protection is a profile that prepares highly qualified specialists that possess necessary competences for ecology-oriented decision-making. [+]

Top Master Degrees in Natural Sciences in Russia. Master - Ecology and Environment Protection Ecology and environment protection is a profile that prepares highly qualified specialists that possess necessary competences for ecology-oriented decision-making in the sphere of natural resource use and other sectors of national economy, management of greening process in manufacturing, determination of optimal ways for development and efficient management of natural resources. Purpose: Preparation of qualified environmental professionals for the benefit of ecologically safe development of economy, solution of practical and theoretical ecological problems in research and practice sphere and teacher’s activity. Relevance of education. Master degree holders of this profile can take positions in federal and regional nature protection and management of natural resources agencies (Ministry of natural resources and other agencies), in manufacturing, consulting, expert departments, offices, bureau, centers, companies, research institutes dealing with environment protection, in project organizations and other structures that carry out ecological activity, researches and conduct ecological policy at a regional level. Chief of the master degree program is Lyudmila Yakimenko, Doctor of Biological Sciences. [-]

Master in Functional Methods in Differential Equations

Peoples’ Friendship University of Russia
Campus Full time September 2017 Russia Moscow

The program grew up from the constantly growing demand for young professionals working in industry and having strong background in fundamental mathematics. [+]

Master in Functional Methods in Differential Equations & Interdisciplinary Researches  

Period of studies: 2 years ECTS credits: 120 Language: English

Program description

The program grew up from the constantly growing demand for young  professionals working in industry and having strong background in fundamental mathematics.

The two following directions are represented in the program -  mathematical analysis and differential equations.

There are unique courses among disciplines taught within this program,  such as «Inverse problems of variation calculus», «Mathematical methods in medicine», «Analytical-numerical methods for the Navier-Stokes equations», «Mathematical models of glacier dynamics» and etc. ... [-]


Graduate Of Statistical And Mathematical Methods Of Analysis

Moscow State University of Economics, Statistics and Informatics MESI
Campus Full time September 2017 Russia Moscow

Today we can safely say that was left virtually no branch of business, wherever required highly qualified specialists in the economic and [+]

Graduate of statistical and mathematical methods of analysis and forecasting economic

Language of instruction: Russian

Today we can safely say that was left virtually no branch of business, wherever required highqualified on economic and mathematical modeling. At the same time every year the market requires more and more complex and qualified solutions.Graduates MESI - economists have analytical thinking, which is based on a deep knowledge of economics, mathematics, statistics, and computer technology. The specifics of the program - training based on a combination of disciplines that form the core of classical education in economics, applied statistics, econometrics, economic and mathematical modeling. Competence of the graduate program: ... [-]


Environmental Chemistry, Chemical Expertise and Environmental Security

Immanuel Kant Baltic Federal University
Campus Full time September 2017 Russia Kaliningrad

The period of study specified by the Federal State Educational Standards (FSES) of Higher Education (HP) is 4 years. The study load of the bachelor’s programme specified by the FSES of HE is 240 ECTS points. [+]

The period of study specified by the Federal State Educational Standards (FSES) of Higher Education (HP) is 4 years. The study load of the master's programme specified by the FSES of HE is 120 ECTS points. The programme is meant: to train highly qualified specialists in the field of Environmental Chemistry, Chemical Expertise and Environmental Security who can prevent or minimize the damage to the environment caused by various types of human activities. Mastering of the programme enables students: to conduct independent research in the field of Environmental Chemistry, Chemical Expertise and Environmental Security, which requires fundamental interdisciplinary knowledge and skills in the implementation of modern experimental methods; to implement expert analysis in the specific areas of Environmental Chemistry, Chemical Expertise and Environmental Security; to conduct research in the field of Environmental Chemistry, Chemical Expertise and Environmental Security. [-]

Master Programme - Environmental Monitoring

Northern (Arctic) Federal University
Campus Full time September 2017 Russia Arkhangelsk

The purpose of the master's program - the fundamental training of highly qualified professionals with deep knowledge of modern ecology and [+]

Master's Program - Environmental Monitoring Place of study: Institute of Natural Sciences and Biomedicine (IENiB), Northern (Arctic) Federal University named after MV Lomonosov, Arkhangelsk, Russia Education: Master

Qualification of the graduate: Master of engineering and technology The purpose of the master's program - the fundamental training of highly qualified professionals with deep knowledge of modern ecology and environmental monitoring, owning professional research and practical methods of environmental monitoring and capacity for independent research career.

Objects of professional activity:

 

natural-territorial and territorial-production complexes, territorial socio-economic system of global, regional and local levels; government planning, control, monitoring, assessment of environmental components of all forms of economic activity; demographic processes, programs for sustainable development at all levels, education, education and health. ... [-]