1) analysis of paradoxes
佯谬分析
2) paradox
[英]['pærədɔks] [美]['pærə'dɑks]
佯谬
1.
On the solving paradox of linearity development mode of science and technology;
探讨科技发展线性模式佯谬的解决
2.
A method is introduced to discuss the Feynman s disc paradox with the theory of thegeneall physics, this paper quantitatively analyzes the conservation law of the angular momentumin Feynman s disc paradox and calculates the angular of the Feynman s disc.
从普通物理的角度,定量分析Feynman圆盘佯谬中的角动量守恒,最后对Feynman圆盘角速度作了定量计
3.
The two paradoxes are reso.
这二个佯谬均由文中利用叠加齐次解的方法解
3) Braess's paradox
Braess佯谬
4) Zhai Paradox
翟氏佯谬
1.
From Zhai Paradox to Zhai Effect: The Distribution of Supercurrent inside an ldeal Type I Superconductor;
现在将两条超导线都通以密度为JC 的超导电流 ,设它们在两条导线表面产生的磁场为BC1 和BC2 ,因为是相同的材料 ,应该有BC1 =BC2 ,但是根据载流导线产生的磁场的计算[2 ] ,我们可以立刻得到BC2 /BC1 =2 ,这就产生了佯谬(翟氏佯谬 )。
5) Gibbs paradox
Gibbs佯谬
1.
Eetropy of Mixing and Gibbs Paradox;
混合熵和Gibbs佯谬
2.
With the help of the classical partition function and the quantum partition function of the perfect gas made from an individual atom molecule,two different entropy formulas are drawn,Two wrong explanations of Gibbs paradox are analyzed and the reasons of these wrong explanations are pointed out.
本文利用单原子分子理想气体的经典配分函数和量子配分函数,导出熵的两个不同的公式,并对Gibbs佯谬的两种错误解释进行了深入分析,指出了错误的原因,根据量子统计力学中的同种气体的分子具有全同性,密度发生突变,对Gibbs佯谬做出了正确的热力学解释。
3.
It is found, under the Gibbs paradox free requirement, that the DS1 gas is equivelent to two one-dimensional thermodynamical equilibrium systems of fermions.
在Gibbs佯谬消除的条件下,发现DS1气体是一类一维费米气体。
6) Landsberg paradox
Landsberg佯谬
1.
Landsberg paradox may be clarified in the leading-force s frame, the dilation or contraction of temperature is inevitable outcome of different dividing criterion about work and heat.
Landsberg佯谬可以在引导功的框架内得到澄清 ,而温度的胀缩是由功热关系的不同界定标准所引起的必然结果 。
2.
It is pointed out in this paper that so called Landsberg paradox is no more than the observation effect of special Relativisity.
Landsberg佯谬 ,只是狭义相对论的一种观测效应 。
补充资料:奥伯斯佯谬
奥伯斯佯谬 Olbers paradox 1826年,德国天文学家H.W.M.奥伯斯指出,一个静止、均匀、无限的宇宙模型会导致如下结论黑夜与白天一样亮。但实际上夜空却是黑的。理论同观测的这种矛盾称为奥伯斯佯谬。采用天体之间有吸光物质、天体寿命有限或天体有演化、引力常数随距离而变化等都难以解决奥伯斯佯谬。在现代的膨胀宇宙模型里,奥伯斯佯谬不存在。 |
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