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Wissenschaftliche Publikationen
.: A model of time-varying music engagement.
Wissenschaftliche Publikationen
.: A model of time-varying music engagement.
At first glance, it would seem to be impossible to look inside a star. An international team of astronomers, under the leadership of Earl Bellinger and Saskia Hekker of the Max Planck Institute for Solar System Research in Göttingen, has, for the first time, determined the deep inner structure of two stars based on their oscillations.
To make a model of a star’s interior, astrophysicists
Mercury, the smallest of the eight planets with a diameter of 4900 kilometres and the closest to the Sun, looks more like the Moon than the Earth from the outside. It is the only rocky planet that has a global magnetic field like Earth. But why is its magnetic field so much weaker than Earth’s? Scientists at the Technische Universität Braunschweig and the Max Planck Institute for Solar System Research have now presented a new explanation: the solar wind counteracts Mercury’s internal dynamo and thus weakens its magnetic field.
magnetic field – nipped in the bud A new computer model
Researchers use the concept of „anti-kick“ to explain why the speed suddenly decreases after the collision of such exotic objects
In this model, a smaller and a large black hole move
Wissenschaftliche Publikationen – MPI für demografische Forschung
mortality deceleration: likelihood inference and model
Physiology
lipid-sugar compounds in cells more Virtual liver model
Physiology
lipid-sugar compounds in cells more Virtual liver model
have demonstrated for the first time in an animal model
Discovery of how immune system B-cells can react to very different substances
Accepted doctrine refuted The new model for the activation
Many important medicines, such as antibiotics and anticancer drugs, are derived from natural products from Bacteria. The enzyme complexes that produce these active ingredients have a modular design that makes them ideal tools for synthetic biology. By exploring protein evolution, a team led by Prof. Dr. Helge Bode has found new „fusion sites“ that enable faster and more targeted drug development.
there is a great opportunity in taking nature as a model