光的惯性。用反射腔内受限的辐射流验证牛顿第二定律

IF 0.1 Q4 PHYSICS, MULTIDISCIPLINARY Anales AFA Pub Date : 2023-09-28 DOI:10.31527/analesafa.2023.34.3.51

C. M. Figueroa, S. Saracho

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引用次数: 0

摘要

1904年，奥地利物理学家弗里茨Hasenöhrl用心理实验的方法检验了反射腔中的黑体辐射。通过计算保持腔体相对于辐射压力匀速运动所需的功，他计算出辐射能量的值相当于E= 38mc2的关系式，在1905年修正为E=34mc2。这个关系式建立了质量m和辐射能量E之间的等价关系，并最终被爱因斯坦修正为现在已知的形式E = mc2。由这些推论得出的结论是，光具有质量和惯性。根据Hasenöhrl启发的一个思想实验，我们加速了一个包含内部辐射通量的反射腔，我们得出结论，在某些运动条件下，光验证了牛顿第二惯性定律

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THE INERTIA OF LIGHT. VERIFICATION OF NEWTON’S SECOND LAW BY A CONFINED FLOW OF RADIATION IN A REFLECTIVE CAVITY

In 1904, the Austrian physicist Fritz Hasenöhrl examined by means of mental experiments the black body radiation in a reflecting cavity. By calculating the work required to keep the cavity moving at constant velocity in opposition to the radiation pressure, he calculated for the radiation energy a value equivalent to E =38mc2 relation corrected in 1905 to E=34mc2. This relation establishes an equivalence between mass m and radiation energy E and was finally corrected to the present known form E = mc2 by Einstein. The conclusion from these deductions is that light has mass and inertia. Based on a thought experiment inspired by Hasenöhrl’s, in which we accelerate a reflecting cavity containing an internal radiation flux, we conclude that, under certain conditions of motion, light verifies Newton’s 2nd Law of Inertia

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Anales AFA PHYSICS, MULTIDISCIPLINARY-

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0.40

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