action - 2024 ACF Winter at Central Florida

Question

Hamilton’s principle states that systems will take a path in configuration space where this quantity remains constant, thus expressing the principle of stationary [this quantity]. For 10 points each:

[10m] Name this quantity that equals the time integral of the Lagrangian.

ANSWER: action [accept principle of stationary action; prompt on S]

[10e] Stationary points of an action functional are the solutions to equations named for Joseph-Louis Lagrange and this mathematician. His namesake number e is approximately equal to 2.718.

ANSWER: Leonhard Euler (“OY-lur”) [accept Euler–Lagrange equations or Euler’s number]

[10h] The principle of stationary action is generalized by this formalism, which attempts to find the propagator by summing the functional “e to the action times i over h-bar” over all trajectories.

ANSWER: path integral formulation

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Summary


2024 ACF Winter at UC Berkeley	2024-11-16	Y	3	20.00	100%	67%	33%
2024 ACF Winter at Clemson	2024-11-16	Y	6	18.33	100%	67%	17%
2024 ACF Winter at Clemson	2024-11-16	Y	6	18.33	83%	33%	67%
2024 ACF Winter at Lehigh	2024-11-16	Y	7	17.14	100%	43%	29%
2024 ACF Winter at Northwestern	2024-11-16	Y	8	17.50	100%	63%	13%
2024 ACF Winter at Online	2024-11-16	Y	7	10.00	100%	0%	0%
2024 ACF Winter at Online	2024-11-16	Y	3	10.00	67%	0%	33%
2024 ACF Winter at Central Florida	2024-11-16	Y	4	22.50	100%	75%	50%
2024 ACF Winter at Oxford	2024-11-16	Y	8	21.25	100%	100%	13%
2024 ACF Winter at Brandeis	2024-11-16	Y	8	16.25	100%	50%	13%

Data


UCF A	Florida Tech B	10	10	10	30
UF D	Florida State University A	10	10	0	20
UF B	UF E	0	10	0	10
UF A	UF F	10	10	10	30