看到一张史上最聪明的人的合影

[wh]

爱因斯坦怎么这么有魅力到处撩骚，不科学啊

为啥到处撩骚是不科学？科学工作者应该目标专一？

[wh]

爱因斯坦干架肯定干不过波尔。尼玛波尔是足球运动员，一个能打五个爱因斯坦。

哈哈，爱因斯坦看着年纪也比波尔大？
你踢球吗？好像不踢吧？你从大一就进了散打俱乐部吧？

[wh]

波尔兄弟，哥哥就是量子力学的大波尔，足球踢的不如弟弟好，但也是正式的俱乐部的运动员，是个守门员。弟弟小波尔是个数学家，曾经代表丹麦足球国家队出战，是丹麦国家足球队员。真是厉害了我的波。这俩兄弟能打照片里的所有人。

这家厉害！他弟弟踢哪个位置？丹麦国足不是专业运动员？踢得好吗？

[wh]

其实居里夫人也是居里先生的学生，说成师姐追求师弟是不是好一点

听说过，到底是师生恋还是师姐弟恋？ 居里先生是辐射去世的吗？他是不是做得比居里夫人早，所以辐射更多？

[Xiaofish]

听说过，到底是师生恋还是师姐弟恋？ 居里先生是辐射去世的吗？他是不是做得比居里夫人早，所以辐射更多？

车祸。居里夫人没当过朗之万的老师，只能算师姐弟

[wh]

车祸。居里夫人没当过朗之万的老师，只能算师姐弟

哦这么惨。
我以为你是说居里先生和夫人 居里夫人小时候家里穷吗？或者居里先生？小时候看过一本关于他们的连环画，记得其中一张画是冬天的时候家里没有厚被子，就把所有衣服都盖在床上，上面再压一把椅子。

[诺华老药工]

你高中文科的吧。
你有没有手性的概念？比如你的一双手，一双脚，自行车的两个脚蹬子，汽车左右的轮子...互为镜像而无法叠合, 很多化学分子是这样的。这叫立体化学。
合成化合物的时候，怎么要最后的产品是你所要的构象，很烧脑筋。

学习了，stereochemist，天体化学家。
Sharpless is the fifth person (in addition to two organizations) to have twice been awarded a Nobel prize, along with Marie Curie, John Bardeen, Linus Pauling and Frederick Sanger, and the third to have been awarded two prizes in the same discipline (after Bardeen and Sanger).

居里夫人有好多第一，还有一个唯一：
She was the first woman to win a Nobel Prize, the first person to win a Nobel Prize twice, and the only person to win a Nobel Prize in two scientific fields. Her husband, Pierre Curie, was a co-winner of her first Nobel Prize, making them the first married couple to win the Nobel Prize and launching the Curie family legacy of five Nobel Prizes. She was, in 1906, the first woman to become a professor at the University of Paris.

[ilovesunnybeach]

准确的说， 是物理学和化学学术界界最有成就的人。 世上比他们聪明多了去了， 聪明的定义很广， 不只是物理大脑。 会谈钢琴， 会领军打战， 会唱歌跳舞， 都叫聪明， 甚至， 做小偷很在行， 偷10000次都不会被发现， 抢几百次银行都没被抓着， 都叫聪明。

[ilovesunnybeach]

A. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, Th. De Donder, E. Schrödinger, J.E. Verschaffelt, W. Pauli, W. Heisenberg, R.H. Fowler, L. Brillouin;
P. Debye, M. Knudsen, W.L. Bragg, H.A. Kramers, P.A.M. Dirac, A.H. Compton, L. de Broglie, M. Born, N. Bohr;
I. Langmuir, M. Planck, M. Skłodowska-Curie, H.A. Lorentz, A. Einstein, P. Langevin, Ch. E. Guye, C.T.R. Wilson, O.W. Richardson

[wh]

你高中文科的吧。
你有没有手性的概念？比如你的一双手，一双脚，自行车的两个脚蹬子，汽车左右的轮子...互为镜像而无法叠合, 很多化学分子是这样的。这叫立体化学。
合成化合物的时候，怎么要最后的产品是你所要的构象，很烧脑筋。

理科，不过大都忘了，也没学过手性 记得以前玩过一个游戏，盯着一根手指看，心里默念长高长高长高，过一会儿这根手指真的会比以前高，两个手掌合拢时明显可以看到 过一阵又缩回去了 不过我刚刚试了试，没成功……不知道是不是年纪大了，手指不听话了
所以stereochemist不是天体？

[wh]

准确的说， 是物理学和化学学术界界最有成就的人。 世上比他们聪明多了去了， 聪明的定义很广， 不只是物理大脑。 会谈钢琴， 会领军打战， 会唱歌跳舞， 都叫聪明， 甚至， 做小偷很在行， 偷10000次都不会被发现， 抢几百次银行都没被抓着， 都叫聪明。

对。我是在油管上看到这张照片，标题好像是the most intelligent photo ever taken.
不过你说的这些不只是脑力上的聪明，更有动手能力和实践能力。学院派的聪明一般指脑力吧。

[pascaldechin]

理科，不过大都忘了，也没学过手性 记得以前玩过一个游戏，盯着一根手指看，心里默念长高长高长高，过一会儿这根手指真的会比以前高，两个手掌合拢时明显可以看到 过一阵又缩回去了 不过我刚刚试了试，没成功……不知道是不是年纪大了，手指不听话了
所以stereochemist不是天体？

你高中居然是理科的？那怎么后来弃理从文了？

[wh]

A. Piccard, E. Henriot, P. Ehrenfest, E. Herzen, Th. De Donder, E. Schrödinger, J.E. Verschaffelt, W. Pauli, W. Heisenberg, R.H. Fowler, L. Brillouin;
P. Debye, M. Knudsen, W.L. Bragg, H.A. Kramers, P.A.M. Dirac, A.H. Compton, L. de Broglie, M. Born, N. Bohr;
I. Langmuir, M. Planck, M. Skłodowska-Curie, H.A. Lorentz, A. Einstein, P. Langevin, Ch. E. Guye, C.T.R. Wilson, O.W. Richardson

跟贴一下各人的全名和成就。前左一的Langmuir有点像川普……

https://rarehistoricalphotos.com/solvay ... aken-1927/
Back to front, left to right:

Back: Auguste Piccard, Émile Henriot, Paul Ehrenfest, Édouard Herzen, Théophile de Donder, Erwin Schrödinger, JE Verschaffelt, Wolfgang Pauli, Werner Heisenberg, Ralph Fowler, Léon Brillouin.

Middle: Peter Debye, Martin Knudsen, William Lawrence Bragg, Hendrik Anthony Kramers, Paul Dirac, Arthur Compton, Louis de Broglie, Max Born, Niels Bohr.

Front: Irving Langmuir, Max Planck, Marie Curie, Hendrik Lorentz, Albert Einstein, Paul Langevin, Charles-Eugène Guye, CTR Wilson, Owen Richardson.

The scientists on the picture:

Auguste Piccard designed ships to explore the upper stratosphere and the deep seas (bathyscaphe, 1948).

Emile Henriot detected the natural radioactivity of potassium and rubidium. He made ultracentrifuges possible and pioneered the electron microscope.

Paul Ehrenfest remarked (in 1909) that Special Relativity makes the rim of a spinning disk shrink but not its diameter. This contradiction with Euclidean geometry inspired Einstein’s General Relativity. Ehrenfest was a great teacher and a pioneer of quantum theory.

Edouard Herzen is one of only 7 people who participated in the two Solvay conferences of 1911 and 1927. He played a leading role in the development of physics and chemistry during the twentieth century.

Théophile de Donder defined chemical affinity in terms of the change in the free enthalpy. He founded the thermodynamics of irreversible processes, which led his student Ilya Prigogine (1917-2006) to a Nobel prize.

Erwin Schrödinger matched observed quantum behavior with the properties of a continuous nonrelativistic wave obeying the Schrödinger Equation. In 1935, he challenged the Copenhagen Interpretation, with the famous tale of Schrödinger’s cat. He shared the Nobel prize with Dirac.

Jules Emile Verschaffelt, the Flemish physicist, got his doctorate under Kamerlingh Onnes in 1899.

Wolfgang Pauli formulated the exclusion principle which explains the entire table of elements. Pauli’s sharp tongue was legendary; he once said about a bad paper: “This isn’t right; this isn’t even wrong.”

Werner Heisenberg replaced Bohr’s semi-classical orbits by a new quantum logic which became known as matrix mechanics (with the help of Born and Jordan). The relevant noncommutativity entails Heisenberg’s uncertainty principle.

Sir Ralph Howard Fowler supervised 15 FRS and 3 Nobel laureates. In 1923, he introduced Dirac to quantum theory.

Léon Nicolas Brillouin practically invented solid state physics (Brillouin zones) and helped develop the technology that became the computers we use today.

Peter Debye pioneered the use of dipole moments for asymmetrical molecules and extended Einstein’s theory of specific heat to low temperatures by including low-energy phonons.

Martin Knudsen revived Maxwell’s kinetic theory of gases, especially at low pressure: Knudsen flow, Knudsen number, etc.

William Lawrence Bragg was awarded the Nobel prize for physics jointly with his father Sir William Henry Bragg for their work on the analysis of the structure of crystals using X-ray diffraction.

Hendrik Kramers was the first foreign scholar to seek out Niels Bohr. He became his assistant and helped develop what became known as Bohr’s Institute, where he worked on dispersion theory.

Paul Dirac came up with the formalism on which quantum mechanics is now based. In 1928, he discovered a relativistic wave function for the electron which predicted the existence of antimatter, before it was actually observed.

Arthur Holly Compton figured that X-rays collide with electrons as if they were relativistic particles, so their frequency shifts according to the angle of deflection (Compton scattering).

Louis de Broglie discovered that any particle has wavelike properties, with a wavelength inversely proportional to its momentum (this helps justify Schrödinger’s equation).

Max Born’s probabilistic interpretation of Schrödinger’s wave function ended determinism in physics but provided a firm ground for quantum theory.

Niels Bohr started the quantum revolution with a model where the orbital angular momentum of an electron only has discrete values. He spearheaded the Copenhagen Interpretation which holds that quantum phenomena are inherently probabilistic.

Irving Langmuir was an American chemist and physicist. His most noted publication was the famous 1919 article “The Arrangement of Electrons in Atoms and Molecules”.

Max Planck originated quantum theory, which won him the Nobel Prize in Physics in 1918. He proposed that exchanges of energy only occur in discrete lumps, which he dubbed quanta.

Marie Curie was the first woman to earn a Nobel prize and the first person to earn two. In 1898, she isolated two new elements (polonium and radium) by tracking their ionizing radiation, using the electrometer of Jacques and Pierre Curie.

Hendrik Lorentz discovered and gave a theoretical explanation of the Zeeman effect. He also derived the transformation equations subsequently used by Albert Einstein to describe space and time.

Albert Einstein developed the general theory of relativity, one of the two pillars of modern physics (alongside quantum mechanics). He is best known in popular culture for his mass-energy equivalence formula (which has been dubbed “the world’s most famous equation”).

He received the 1921 Nobel Prize in Physics “for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect”.

Paul Langevin developed Langevin dynamics and the Langevin equation. He had a love affair with Marie Curie.

Charles-Eugène Guye was a professor of Physics at the University of Geneva. For Guye, any phenomenon could only exist at certain observation scales.

Charles Thomson Rees Wilson reproduced cloud formation in a box. Ultimately, in 1911, supersaturated dust-free ion-free air was seen to condense along the tracks of ionizing particles. The Wilson cloud chamber detector was born.

Sir Owen Willans Richardson won the Nobel Prize in Physics in 1928 for his work on thermionic emission, which led to Richardson’s Law.

[changjiang]

对。我是在油管上看到这张照片，标题好像是the most intelligent photo ever taken.
不过你说的这些不只是脑力上的聪明，更有动手能力和实践能力。学院派的聪明一般指脑力吧。

稍微读过一些书的人喜欢造神，说起来物理这个大神那个大神数学这个大神那个大神，其实也就某方面比其他人强些。

[changjiang]

为啥到处撩骚是不科学？科学工作者应该目标专一？

他那球样，又不威猛英俊，又不财富五车，女人们纷纷扑上去，不科学。

[Homo]

说到诺奖，是不是欠吴健雄一两个。她的工作不亚于居里。就是李和杨的那次获奖也是得到吴健雄的实验的证明才可以获奖。

[wh]

他那球样，又不威猛英俊，又不财富五车，女人们纷纷扑上去，不科学。

扑他的女人爱名利？他有钱吗？

[wh]

说到诺奖，是不是欠吴健雄一两个。她的工作不亚于居里。就是李和杨的那次获奖也是得到吴健雄的实验的证明才可以获奖。

好像说她不大会做人，一人独揽功劳，结果被别人抢先了：
站内帖子：Re: （转载）关于杨-米尔斯的一个常见误解

[changjiang]

说到诺奖，是不是欠吴健雄一两个。她的工作不亚于居里。就是李和杨的那次获奖也是得到吴健雄的实验的证明才可以获奖。

评奖嘛，你懂的，成绩加个人运作，没人为你运作自然没戏。

[Homo]

好像说她不大会做人，一人独揽功劳，结果被别人抢先了：
站内帖子：Re: （转载）关于杨-米尔斯的一个常见误解

谢谢，这个帖子正好没看到。

正好手头有一本台湾学者江才健英文版本的吴健雄传。刚又拿过来翻了一下。里面提到了很多当时科学家对比 Curie，Wu，还有 Meitner。还有李政道对三位女科学家的评比。多数认为 Wu 高于 Curie ，和 Meitner 持平。

其实最主要的一个原因是那个年代对于女性的不公平对待。其他两位肯定面对同样的不公正对待。但是在 Wu 这里，还有另外一个最重要的原因，就是她是一位中国人。