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   Saad, Phil; Shenker, Stephen H.; Stanford, Douglas (June 2018, arXiv.org)
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   https://doi.org/10.1093/jcmc/zmad024  

   Twyman, Marlon; Murić, Goran; Zheng, Weiwei; Baym, ed., Nancy; Ellison, ed., Nicole (June 2023, Journal of Computer-Mediated Communication)

   Abstract Online innovation competitions are ecosystems where institutions source numerous solutions from knowledge workers through a platform intermediary. By considering how an individual competitor’s performance varies based on their social positioning in a competition ecosystem’s collaboration network, we illustrate the value of social networks for individual outcomes in online competitions. The study reports results from Kaggle, a popular online competition platform for data science, where a sample of 350,956 users participated in 2,789 competitions over 4 years. We investigate how the number of collaborations, membership in the largest connected component in the network, and diversity of collaboration experiences impact the points and medals earned and how quickly competitors earn their first medal. Results show that positioning has a positive relationship with performance in competitive ecosystems. Relevant to the future of work, the study considers how knowledge workers in future workplaces should manage their online collaborations. 

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3. Flow and transport in a pleated filter

   https://doi.org/10.1063/5.0102940  

   Fong, Daniel; Sanaei, Pejman (September 2022, Physics of Fluids)

   A pleated membrane filter consists of a porous membrane layer, which is surrounded by two supporting layers, and the whole structure is pleated and placed into a cylindrical cartridge. Pleated membrane filters are used in a variety of industrial applications, since they offer more surface area to volume ratio that is not found in equivalent flat filters. In this work, we introduce a novel three-dimensional model of a pleated membrane filter that consists of an empty region, a pleated region, and a hollow region. The advection diffusion equation is used to model contaminant concentration in the membrane pores along with Darcy's law to model the flow within the membrane and support layers, while the Stokes equation is used for the flow in the empty region and the hollow region. We further use the key assumptions of our model based on small aspect ratios of the filter cartridge and the pleated membrane to simplify the governing equations, which can be easily solved by numerical methods. By performing these steps, we seek to discover an optimal pleat packing density to find the optimum filter performance, while not exceeding a threshold for the particle concentration at the filter outlet. 

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4. Embodiment and Women in STEM: A Proposal

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   Sotirin, Patty; Goltz, Sonia M. (August 2021, Academy of Management Proceedings)

   null (Ed.)
5. Flow and Drag in a Seagrass Bed

   https://doi.org/10.1029/2018JC014862  

   Monismith, Stephen G.; Hirsh, Heidi; Batista, Natasha; Francis, Holly; Egan, Galen; Dunbar, Robert B. (March 2019, Journal of Geophysical Research: Oceans)

   Abstract We report direct measurement of drag forces due to tidal flow over a submerged seagrass bed in Ngeseksau Reef, Koror State, Republic of Palau. In our study, drag is computed using an array of high‐resolution pressure measurements, from which values of the drag coefficients,C_D, referenced to measured depth‐averaged velocities,V, were inferred. Reflecting the fact that seagrass blades deflect in the presence of flow, we find thatC_Dis O(1) when flows are weak and tends toward a value of 0.03 at the highest velocities, behavior that is consistent with existing theory for canopy flows with flexible canopy elements. A limited subset of velocity profiles obey the law of the wall, producing values of shear velocity that, while noisy, broadly agree with values inferred from the pressure measurements. 

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