Matter and cosmogenesis in Kant's Theory of the Heavens

arXiv - PHYS - History and Philosophy of Physics Pub Date : 2024-03-18 DOI:arxiv-2403.11710

Garance BenoitUP1 UFR10

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Abstract

In 1755, Kant published his General Natural History and Theory of the Heavens, in which he presented his hypothesis on the formation of the solar system, known as the primitive nebula hypothesis. This original theory of the heavens was written in dialogue with the conceptions of celestial matter of his time. On the one hand, Kant recognized Descartes' cosmological enterprise as a decisive mechanistic requirement for the intelligence of physics, but his vortices of matter fell into disrepute: Newton invalidated them mathematically. On the other hand, attraction at a distance provides an incomparable explanation of phenomena, but has left a gaping hole in our understanding of the law's material anchorage in bodies, and ultimately sends the question of how the system works back to God. He then set out to overcome the dichotomy established by these two authors, drawing on the Cartesian adage ''give me matter and I'll make a world'', but applying Newton's laws to cosmogenesis. In concrete terms, interplanetary space currently contains no matter capable of explaining the motion of the stars, we need to look further back into the system's past, to find an earlier state of material dispersion whose effects are still being felt. He must assume the existence of a cloud of dust, made up of the simplest elements and moved by the forces of attraction and repulsion alone. From this, Kant can form the hypothesis of the primitive nebula breaking down first into a phase of stellogenesis, and then into the creation of an accretion disk gradually forming the planets and their satellites.

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康德《天体论》中的物质与宇宙生成

1755 年，康德出版了《自然史通论和天体理论》，他在书中提出了关于太阳系形成的假说，即原始星云假说。这一独创的天体理论是在与历史学的天体概念对话的过程中写成的。一方面，康德承认笛卡尔的宇宙学事业是物理学智慧的决定性机械要求，但他的物质漩涡学说却名声扫地：另一方面，"远距离吸引 "为各种现象提供了无可比拟的解释，但却在我们对该定律在物体中的物质根基的理解上留下了一个缺口，并最终将该系统如何运作的问题推回给了上帝。随后，他借鉴笛卡尔的格言 "给我物质，我将创造世界"，将牛顿定律应用于宇宙生成，试图克服这两位作者所建立的二分法。具体而言，行星际空间目前不包含任何能够解释恒星运动的物质，因此我们需要进一步追溯这个系统的过去，以找到其影响仍然存在的早期物质弥散状态。他必须假定存在着由最简单的元素组成的尘埃云，并由吸引力和排斥力单独驱动。由此，康德可以形成这样的假设：原始星云首先分解为恒星生成阶段，然后形成一个逐渐形成行星及其卫星的星盘。

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arXiv - PHYS - History and Philosophy of Physics

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