Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
approach is to apply foundational techniques grounded in logic, semantics, and verification. This work takes place within the CYCLIC project: Cyclic Structures in Programs and Proofs, a collaboration among
-
forms from land via inland waters to sea. You will synthesise, test, and use the reported methane kinetics from labs and culture experiments to construct the model using Python programming language. You
-
EMBRACER project on ocean and ice interactions. Your job The Atlantic meridional overturning circulation (AMOC) and the polar ice sheets (Greenland and West Antarctic ice sheets) play important roles in
-
languages, culture, agricultural practices and landscapes of Senegal is an advantage. A driving license. Willingness to learn new analytical and scientific skills. Willingness to communicate and interact with
-
on scarce land. As one of the largest public-private partnerships in the field of Nature-based Solutions in the world, NL2120 works on gathering and scaling up knowledge, connecting theory and practice and
-
of the DataLibra project Approximately 120 zettabytes of data has been collected worldwide but less than 1% is actually used. Structured data, e.g. tables, spreadsheets, and relational databases, is prevailing in
-
institute for sustainability research and teaching of Utrecht University. The mission of the Environmental Sciences group is to understand the interactions between terrestrial ecosystems and global
-
vision on the structure of the PhD and will have the freedom to reshape the research projects within the general boundaries of the subject of spatial and foraging ecology and habitat use of Black-tailed
-
van Dijk), we aim to uncover the conditions that allow near-perfect information transfer to arise from simple interactions between simple building-blocks in early prebiotic systems. In this project, you
-
PhD position - Modelling the emergence of information transfer in prebiotic self-replicating systems
. Bram van Dijk), we aim to uncover the conditions that allow near-perfect information transfer to arise from simple interactions between simple building-blocks in early prebiotic systems. In this project