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of the Computer Science and Mathematics (CSM) Division. CSM delivers fundamental and applied research capabilities in a wide range of areas, including applied mathematics and computer science, experimental computing
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modeling and simulating solids, fluids, and their interaction and interface; clear demonstration of skills in finite element simulation; clear demonstration of skills in biomechanical and/or physiological
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. Assist senior laboratory personnel with carrying out experimental procedures and recommend modifications as needed. Perform specialized tests and procedures using complex equipment. Procure/order supplies
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Physics , Experimental Ultrafast Physics , Field Theory , Fluid Physics , Fundamental Quantum Science , GR-Cosmology (gr-qc) , Gravitational Physics , Gravitational Theory , Gravitational Wave Sources
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University of North Carolina at Charlotte | Charlotte, North Carolina | United States | about 7 hours ago
our website: https://provost.charlotte.edu/academic-budget-hr/academic-personnel-procedures-handbook/ Essential Duties and Responsibilities The Department of Mechanical Engineering and Engineering
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of composite materials, interface design, fracture mechanics, contact and friction, tribology, damage tolerance and reliability of layered materials, machining of metals and composites. 2. Fluid Mechanics and
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., anti-inflammatory, antioxidant, antimicrobial activity) to rapidly identify and prioritize the compounds or compound classes responsible for the observed biological effects. Where to apply Website https
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the Principal Investigator as necessary. The incumbent is expected to closely monitor use of experimental equipment and drugs. Because some subjects referred to to participate on a research study have no other
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and seeking council from the Principal Investigator as necessary. The incumbent is expected to closely monitor use of experimental equipment and drugs. Because some subjects referred to to participate
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multiphoton imaging with high temporal resolution. The project focuses on two applications. The first is dynamic flow imaging for granular systems and opaque fluids, which allows for studying liquid metals used