James R Carey, Brinsley Eriksen, Arni S R Srinivasa Rao
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Our main result was the affirmation of the mathematical prediction-i.e., the robust symmetry of years served and years remaining in Congress over the approximately 230 years of its existence (1789-2022). 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引用次数: 0
摘要
我们在本文中的首要目标是测试和确定一个被称为 "静态人口特征"(SPI)的替代级人口基本定理的应用,该定理是一个数学模型,它将人口中 x 岁的人口比例与 x 年的人口比例等同起来。由于真正的固定性在人类种群和非人类物种种群中几乎不存在,因此我们使用美国国会两院议员的历史数据作为种群替代物。我们将他们的固定人数(如 100 名参议员;435 名众议员)视为静态种群,将他们的任职年数和剩余年数等同于在世年数和剩余年数。我们的主要结果是证实了数学预测,即在国会存在的大约 230 年里(1789-2022 年),任职年数和剩余年数具有稳健的对称性。这种规律性及其分布模式产生了许多应用,包括:(1) 国会半衰期和其他定量指标(如 95% 的更替率);(2) 议员剩余年数分布的可预测性;(3) 单个数字--平均任职年数--的非凡信息含量[即:(a) 平均任职年数;(b) 平均任职年数;(c) 平均任职年数;(d) 平均任职年数;(e) 平均任职年数;(f) 平均任职年数、得出出生率(b)和死亡率(d);使用 d 作为模型生命表的指数率参数];(4) 特定时期人群(国会)的概念和相关指标;(5) 国会生命周期概念,包括形成期、成长期、衰老期和消亡期;(6) 100%生命周期更替的纵向政党更替率(民主党/共和党),即每个席位从前任党派到现任党派,以及从现任党派到继任党派。虽然我们的重点是使用国会成员的历史数据,但我们相信大多数结果都是通用的,因此与大多数类型的静态或准静态人口相关,并适用于未来的人口零增长(ZPG)世界。
Congressional Symmetry: Years Remaining Mirror Years Served in the U.S. House and Senate.
Our overarching goal in this paper was to both test and identify applications for a fundamental theorem of replacement-level populations known as the Stationary Population Identity (SPI), a mathematical model that equates the fraction of a population age x and the fraction with x years to live. Since true stationarity is virtually non-existent in human populations as well as in populations of non-human species, we used historical data on the memberships in both chambers of the U.S. Congress as population proxies. We conceived their fixed numbers (e.g., 100 Senators; 435 Representatives) as stationary populations, and their years served and years remaining as the equivalent of life lived and life remaining. Our main result was the affirmation of the mathematical prediction-i.e., the robust symmetry of years served and years remaining in Congress over the approximately 230 years of its existence (1789-2022). A number of applications emerged from this regularity and the distributional patterns therein including (1) new metrics such as Congressional half-life and other quantiles (e.g., 95% turnover); (2) predictability of the distribution of member's years remaining; (3) the extraordinary information content of a single number-the mean number of years served [i.e., derive birth (b) and death (d) rates; use of d as exponential rate parameter for model life tables]; (4) the concept of and metrics associated with period-specific populations (Congress); (5) Congressional life cycle concept with Formation, Growth, Senescence and Extinction Phases; and (6) longitudinal party transition rates for 100% Life Cycle turnover (Democrat/Republican) i.e., each seat from predecessor party-to-incumbent party and from incumbent party-to-successor party. Although our focus is on the use of historical data for Congressional members, we believe that most of the results are general and thus both relevant and applicable to most types of stationary or quasi-stationary populations including to the future world of zero population growth (ZPG).