Chaos: When the present determines the future, but the approximate present does not approximately determine the future.
Sometimes, a small change could produce great impact over time. 有时,微小的变化会随着时间的流逝产生巨大的影响。 Q https://en.wikipedia.org/wiki/Chaos_theory Small differences in initial conditions, such as those due to errors in measurements or due to rounding errors in numerical computation, can yield widely diverging outcomes for such dynamical systems, rendering long-term prediction of their behavior impossible in general.[6] This can happen even though these systems are deterministic, meaning that their future behavior follows a unique evolution[7] and is fully determined by their initial conditions, with no random elements involved.[8] In other words, the deterministic nature of these systems does not make them predictable.[9][10] This behavior is known as deterministic chaos, or simply chaos. The theory was summarized by Edward Lorenz as:[11] Chaos: When the present determines the future, but the approximate present does not approximately determine the future. 初始条件的微小差异,例如由于测量误差或数值计算中的舍入误差所引起的,可能会导致这种动力学系统的结果大相径庭,从而通常无法对其行为进行长期预测。[6] 即使这些系统是确定性的,也可能发生这种情况,这意味着它们的未来行为遵循独特的演变[7],并且完全由其初始条件决定,而没有涉及任何随机因素。[8] 换句话说,这些系统的确定性使其无法预测。[9] [10] 这种行为称为确定性混乱,或简称为混乱。 该理论由爱德华·洛伦兹(Edward Lorenz)总结为:[11] 混乱:当当前决定未来时,但是近似当前并不能近似确定未来。 UQ
没人喜欢拼酒,可就是这样的环境,我拼过来了,后面的人还能不拼
开车的安全环境,也是难,没人遵守规矩,几条法规改不了什么,慢慢来,难难难
美国也是,很多人不喜欢现在的氛围,可是现在才改,晚了,难办
Sometimes, a small change could produce great impact over time. 有时,微小的变化会随着时间的流逝产生巨大的影响。
Q https://en.wikipedia.org/wiki/Chaos_theory
Small differences in initial conditions, such as those due to errors in measurements or due to rounding errors in numerical computation, can yield widely diverging outcomes for such dynamical systems, rendering long-term prediction of their behavior impossible in general.[6] This can happen even though these systems are deterministic, meaning that their future behavior follows a unique evolution[7] and is fully determined by their initial conditions, with no random elements involved.[8] In other words, the deterministic nature of these systems does not make them predictable.[9][10] This behavior is known as deterministic chaos, or simply chaos. The theory was summarized by Edward Lorenz as:[11]
Chaos: When the present determines the future, but the approximate present does not approximately determine the future.
初始条件的微小差异,例如由于测量误差或数值计算中的舍入误差所引起的,可能会导致这种动力学系统的结果大相径庭,从而通常无法对其行为进行长期预测。[6] 即使这些系统是确定性的,也可能发生这种情况,这意味着它们的未来行为遵循独特的演变[7],并且完全由其初始条件决定,而没有涉及任何随机因素。[8] 换句话说,这些系统的确定性使其无法预测。[9] [10] 这种行为称为确定性混乱,或简称为混乱。 该理论由爱德华·洛伦兹(Edward Lorenz)总结为:[11]
混乱:当当前决定未来时,但是近似当前并不能近似确定未来。 UQ