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The Lorenz equations also arise in simplified models for [[laser]]s,<ref>{{harvtxt|Haken|1975}}</ref> [[electrical generator|dynamos]],<ref>{{harvtxt|Knobloch|1981}}</ref> [[thermosyphon]]s,<ref>{{harvtxt|Gorman|Widmann|Robbins|1986}}</ref> brushless [[DC motor]]s,<ref>{{harvtxt|Hemati|1994}}</ref> [[electric circuit]]s,<ref>{{harvtxt|Cuomo|Oppenheim|1993}}</ref> [[chemical reaction]]s<ref>{{harvtxt|Poland|1993}}</ref> and [[forward osmosis]].<ref>{{harvtxt|Tzenov|2014}}{{citation needed|date=June 2017<!--doesn't point anywhere-->}}</ref>  The Lorenz equations are also the governing equations in Fourier space for the [[Malkus waterwheel]].<ref>{{harvtxt|Kolář|Gumbs|1992}}</ref><ref>{{harvtxt|Mishra|Sanghi|2006}}</ref> The Malkus waterwheel exhibits chaotic motion where instead of spinning in one direction at a constant speed, its rotation will speed up, slow down, stop, change directions, and oscillate back and forth between combinations of such behaviors in an unpredictable manner.

The Lorenz equations also arise in simplified models for [[laser]]s,<ref>{{harvtxt|Haken|1975}}</ref> [[electrical generator|dynamos]],<ref>{{harvtxt|Knobloch|1981}}</ref> [[thermosyphon]]s,<ref>{{harvtxt|Gorman|Widmann|Robbins|1986}}</ref> brushless [[DC motor]]s,<ref>{{harvtxt|Hemati|1994}}</ref> [[electric circuit]]s,<ref>{{harvtxt|Cuomo|Oppenheim|1993}}</ref> [[chemical reaction]]s<ref>{{harvtxt|Poland|1993}}</ref> and [[forward osmosis]].<ref>{{harvtxt|Tzenov|2014}}{{citation needed|date=June 2017<!--doesn't point anywhere-->}}</ref>  The Lorenz equations are also the governing equations in Fourier space for the [[Malkus waterwheel]].<ref>{{harvtxt|Kolář|Gumbs|1992}}</ref><ref>{{harvtxt|Mishra|Sanghi|2006}}</ref> The Malkus waterwheel exhibits chaotic motion where instead of spinning in one direction at a constant speed, its rotation will speed up, slow down, stop, change directions, and oscillate back and forth between combinations of such behaviors in an unpredictable manner.

洛伦兹方程也出现在[[激光]]、<ref>{{harvtxt|Haken|1975}}</ref>[[发电机|dynamos]]、<ref>{{harvtxt|Knobloch|1981}}</ref>[[热虹吸管]]、 <ref>{harvtxt|Gorman|Widmann|Robbins|1986}</ref>无刷[[直流电动机]]、<ref>{harvtxt|Hemati|1994}</ref>[[电路]]、 <ref>{harvtxt|Cuomo|Oppenheim|1993}}</ref>[[化学反应]]、<ref>{harvtxt|Poland|1993}}</ref>和[[正向渗透]] <ref>{{harvtxt|Tzenov|2014}}{{citation needed|date=June 2017<!--doesn't point anywhere-->}}</ref>等其它领域的简化模型中。洛伦兹方程也是[[马尔库斯水车]]在傅里叶空间的控制方程<ref>{{harvtxt|Kolář|Gumbs|1992}}</ref><ref>{{harvtxt|Mishra|Sanghi|2006}}</ref>马尔库斯水车能够表现出混沌运动。它不是以一个恒定的速度朝固定的方向旋转，而是在旋转的过程中经历加速、减速、停止、改变方向等过程。并且这些过程以不可预测的方式在互相转变。

洛伦兹方程也出现在[[激光]]、<ref>{{harvtxt|Haken|1975}}</ref>[[发电机]]、<ref>{{harvtxt|Knobloch|1981}}</ref>[[热虹吸管]]、 <ref>{harvtxt|Gorman|Widmann|Robbins|1986}</ref>无刷[[直流电动机]]、<ref>{harvtxt|Hemati|1994}</ref>[[电路]]、 <ref>{harvtxt|Cuomo|Oppenheim|1993}}</ref>[[化学反应]]、<ref>{harvtxt|Poland|1993}}</ref>和[[正向渗透]] <ref>{{harvtxt|Tzenov|2014}}{{citation needed|date=June 2017<!--doesn't point anywhere-->}}</ref>等其它领域的简化模型中。洛伦兹方程也是[[马尔库斯水车]]在傅里叶空间的控制方程<ref>{{harvtxt|Kolář|Gumbs|1992}}</ref><ref>{{harvtxt|Mishra|Sanghi|2006}}</ref>马尔库斯水车能够表现出混沌运动。它不是以一个恒定的速度朝固定的方向旋转，而是在旋转的过程中经历加速、减速、停止、改变方向等过程。并且这些过程以不可预测的方式在互相转变。