| source Lund University (X) |
level |
department Biology (24) Chemistry (24) Economic History (24) Social Sciences (22) GIS: Geographical Information Systems (17) Molecular Biology (17) Physical Geography (17) Physics (17) Linguistics (11) Geology (9) Astronomy (7) Human Geography (7) Statistics (7) Public Health Science (6) Sociology (6) Archaeology and Ancient History (5) Mathematics (5) Bioinformatics (4) Gender Studies (4) Human Rights (4) Political Science (4) Development Studies (3) European Ethnology (3) History (3) History of Ideas and Sciences (3) Human Ecology (3) Middle East Studies (3) Religious Studies (3) Arabic (2) Business Law (2) Environmental Strategy (2) Law (2) Other Subjects (2) Physiotherapy (2) Swedish (2) Biomedicine (1) Central and Eastern European Studies (1) Comparative Literature (1) Film Studies (1) General Linguistics (1) Geography (1) Language Technology (1) Musicology (1) Numerical Analysis (1) Philosophy (1) Phonetics (1) Rhetoric (1) Theology (1) |
Score: 8.211661 Details | Listing | Web page
The course is organized around a number of themes concerning central issues in European prehistory, such as the advent of agriculture and domestication, the impact of metallurgy, the growth of towns, the role of elites in this growth, and similar topics. The importance of these issues in the on-going social transformation taking place in the areas is discussed.
Score: 8.211661 Details | Listing | Web page
The course gives a broad overview of the archaeology, history and art history of the material culture and of the written sources from the 8th to the 12th centuries. Different aspects of the political, social, cultural and religious developments and changes within Scandinavia are treated here. These include such aspects as the transition from paganism to Christianity, Viking Age burials, gender and social segregation, trade and plundering, rural and urban landscapes, as well as the development of an economy.
Score: 8.211661 Details | Listing | Web page
Starting with the end of the Stone Age, the social development of the Neolithic period is studied through the rise of villages, towns, cities and states in ancient Greece up to the birth of Classical Athens. This survey includes history, economic history, art and culture, social development, and also tarde and contact with other areas, such as Egypt.
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
Course content: Properties of the Milky Way and galaxies of different kinds regarding structure, chemical evolution and the interplay between stars and the interstellar medium. Methods for determining distances and masses. Dark matter. The Hubble law and the expansion of the Universe. Observations and model descriptions of active galectic nuclei, in particular quasars. The mass density and geometry of the Universe. Theoretical models for the Universe and comparisons with observations. Nuclear synthesis in rhe early Universe. Cosmological background radiation. Dark energy.
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
The course consists of: Newtonian gravitation and dynamics. Reference systems and units. Galactic coordinates. Astrometry and the determination of the distances, motions and distribution of stars. The HR diagram and the colours, luminosities and ages of stars. Stellar kinematics. The solar motion and the Local Standard of Rest. The rotation curve, differential galactic rotation and Oort's constants. Non-circular motions. The galactic potential and galactic orbits. The phase space, collisionless Boltzmann equation and Jeans' equations. Dynamical determination of masses and mass densities.
Score: 8.211661 Details | Listing | Web page
The course consists of: A review of the evolution of massive stars. Core-collapse supernovae. Type Ia supernovae and their use as standard candles in cosmology. Mass transfer in binaries. X-ray binaries. Radio pulsars and millisecond pulsars. The formation of compact binaries. Hypernovae and gamma-ray bursts. Galactic nuclei. Gravitational radiation.
Score: 8.211661 Details | Listing | Web page
The course covers both our own planetary system and planetary systems around other stars. The inner structures, surfaces and atmospheres of planets are desctibed. The formation and stability of planetary systems are discussed, as well as methods for detecting and studying planets and planetary systems around other stars.
Score: 8.211661 Details | Listing | Web page
The course consists of: Techniques in structured programming. Elementary probability theory and statistics. Noise in astronomical data. Fitting models to data and assessment of the fit. Graphical display of data. Numerical solution of ordinary differential equations. Numerical evaluation of integrals. Analysis of real astronomical data.
Score: 8.211661 Details | Listing | Web page
The course contents among others a review of the phases of stellar evolution, the equations of stellar structure, energy transport, nuclear reactions, stellar models, star formation and the evolution of low-mass and high-mass stars.
Score: 8.211661 Details | Listing | Web page
BINP11
Score: 8.211661 Details | Listing | Web page
BINP12
Score: 8.211661 Details | Listing | Web page
BINP14
Score: 8.211661 Details | Listing | Web page
BINP13
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
The course focuses on the theories behind chemical interactions in nature and how they affect abundance and distribution of organisms. Examples of such interactions are chemical defence, chemical communication (how to find a mate and maintain social structure) and how to find food. It is also essential to understand how these interactions have evolved and the biosynthetic origin of the molecules mediating the interactions. Terrestrial as well as aquatic organisms and systems will be discussed. Lab work and exercises give insight into how active substances are isolated and identified and how their biological activity can be tested. Besides, different ways to use the knowledge to develop monitoring systems and to suppress harmful pests in an environmentally friendly manner are presented.
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
In this course you will learn how to modify and build electric equipment. Almost all scientists use electric equipment, but due to the nature of research these machines don t always do exactly what we want them to do. After the course you will be able to fix these problems yourself, or at least know how to communicate your problems to an expert.
Score: 8.211661 Details | Listing | Web page
Score: 8.211661 Details | Listing | Web page
1 - 25 26 - 50 51 - 75 76 - 100 101 - 125 126 - 150 151 - 175 176 - 200 201 - 225 226 - 250 251 - 275 276 - 289