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University of California, San Francisco | San Francisco, California | United States | about 1 month ago
DO-CA-OP-Educ-Sim Learn Ctr Per Diem 88377BR Job Summary Uses skills, performance concepts, and techniques to act as a patient or other simulated person (family member, healthcare provider, etc.) in
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, and contributes to the credibility and effectiveness of the role within the university community. Work Experience: Established record of scholarly productivity related to basic science (cell, molecular
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indemnity, and pet. Free transit on most UTA services Employee discounts on a variety of products and services, including cell phones & plans, entertainment, health and fitness, restaurants, retail, and
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indemnity, and pet. Free transit on most UTA services Employee discounts on a variety of products and services, including cell phones & plans, entertainment, health and fitness, restaurants, retail, and
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of at least 5 years, including experience acquired during the doctoral studies and post-doctoral periods. b) Relevant experience in cell and tissue culture, and in the development of microphysiological models
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to carry out the duties necessary for campus development and operation. More information can be found at: https://ppdo.ucsc.edu/physical-plant/custodial-services/ JOB SUMMARY Under supervision, the Senior
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to carry out the duties necessary for campus development and operation. More information can be found at: https://ppdo.ucsc.edu/physical-plant/custodial-services/ JOB SUMMARY Under supervision, the Senior
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How does a molecule walk? Computer simulations of molecular machines in action School of Mathematical and Physical Sciences PhD Research Project Directly Funded UK Students Prof Sarah Harris, Dr
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Duties Outlined Provide medical care for both outpatient clinic and hospitalized patients with leukemia and hematologic malignancies (excluding stem cell transplant) Participate in the divisional on-call
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by metal nanoparticles, cell survival and radioresistance. The MS-RADAM research programme combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory