https://physlab-wiki.com/ 2026-04-15T00:10:43+00:00 https://physlab-wiki.com/ https://physlab-wiki.com/lib/tpl/UChicago/images/favicon.ico text/html 2025-10-02T11:23:20+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/drop-pinch-off-2023?rev=1759418600&do=diff Drop Pinch-Off Last edited Jan-2023 The formation and pinch-off of a drop is governed by a myriad of fluid physics phenomena. With the help of high-speed photography, we can study probe different stages in the evolution of a drop and gain insight into the length and time scales over which different forces dominate. This experiment uses dimensional analysis to provide potential models for the narrowing radius of a drop's neck nearing pinch-off, and tests these models against data collected in d… text/html 2025-10-02T11:22:23+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/drop-pinch-off-fall2023-archive?rev=1759418543&do=diff Drop Pinch-Off Last edited Nov-2022 The formation and pinch-off of a drop is governed by a myriad of fluid physics phenomena. With the help of high-speed photography, we can study probe different stages in the evolution of a drop and gain insight into the length and time scales over which different forces dominate. This experiment uses dimensional analysis to provide potential models for the narrowing radius of a drop's neck nearing pinch-off, and tests these models against data collected in d… text/html 2025-10-02T11:24:13+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/drop-pinch-off-fall2023?rev=1759418653&do=diff Drop Pinch-Off Last edited Oct-2023 TA Notes The formation and pinch-off of a drop is governed by a myriad of fluid physics phenomena. With the help of high-speed photography, we can study probe different stages in the evolution of a drop and gain insight into the length and time scales over which different forces dominate. This experiment uses dimensional analysis to provide potential models for the narrowing radius of a drop's neck nearing pinch-off, and tests these models against data coll… text/html 2025-10-02T13:36:35+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/drop-pinch-off-spring2025?rev=1759426595&do=diff Drop Pinch-Off TA Notes The formation and pinch-off of a drop is governed by a myriad of fluid physics phenomena. With the help of high-speed photography, we can study different stages in the evolution of a drop and gain insight into the length and time scales over which different forces dominate. This experiment uses dimensional analysis to provide potential models for the narrowing radius of a drop's neck nearing pinch-off, and tests these models against data collected in different time regi… text/html 2025-10-02T11:24:29+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/drop-pinch-off-winter2024?rev=1759418669&do=diff Drop Pinch-Off (Winter 24) TA Notes The formation and pinch-off of a drop is governed by a myriad of fluid physics phenomena. With the help of high-speed photography, we can study probe different stages in the evolution of a drop and gain insight into the length and time scales over which different forces dominate. This experiment uses dimensional analysis to provide potential models for the narrowing radius of a drop's neck nearing pinch-off, and tests these models against data collected in d… text/html 2026-03-10T15:05:17+00:00 Anonymous (anonymous@undisclosed.example.com) https://physlab-wiki.com/phylabs/lab_courses/phys-211-wiki-home/drop-pinch-off/old-versions/expected-powerlaws-spring2024?rev=1773169517&do=diff For this experiment we want to investigate how the shape of the neck of a drop changes through out the pinch off process. Fluids are complex systems which can be difficult to characterize in terms of fundamental physics principles. But with a little bit of knowledge of some of the basic parameters of fluids, we can use the technique of dimensional analysis to predict possible relationships among the processes which are most likely to be involved in driving the behavior which we observe.$[\gamm…