建筑档案对话李兴钢老师
恰逢【一场关于“胜景几何”的建筑展览现场】,露台外面是真实的北京城,展览现场是李老师从业以来的“自我建筑虚拟城市的构建”,“胜景几何”以一个建筑师的“世界观和观世界”的方式展开,渗透中国文化语境的根源性探知,以自我作为思考世界的方式,有一种秉持的建筑挚爱,也有自然秩序纬度的深度思考。时间,是永恒的,我们在其中,也许就是需要那一点反作用力。#建筑档案##设计美学##建筑设计##建筑师##遇见艺术##读书#
恰逢【一场关于“胜景几何”的建筑展览现场】,露台外面是真实的北京城,展览现场是李老师从业以来的“自我建筑虚拟城市的构建”,“胜景几何”以一个建筑师的“世界观和观世界”的方式展开,渗透中国文化语境的根源性探知,以自我作为思考世界的方式,有一种秉持的建筑挚爱,也有自然秩序纬度的深度思考。时间,是永恒的,我们在其中,也许就是需要那一点反作用力。#建筑档案##设计美学##建筑设计##建筑师##遇见艺术##读书#
#商务印书馆新书早知道# 《改变物理学思想的八个方程》
公式的出现,改变了物理学的表达,让物理有了本质的飞跃,进而冲击了我们的世界观。
【编辑推荐】
这是一本讲述人类的智慧结晶方程如何反过来影响人类思维的过程,这种奇特的现象,在物理学中尤为突出。因此,结合物理学史,国内知名的诺贝尔奖研究者、科普专家杨建邺老先生,将这一过程用八个方程展现了出来。围绕方程展开的,不是艰深的物理术语,而是科学家们探索物理知识的传奇故事。也因此,这本书适合所有喜爱物理的人观看。
本书特点:
1.趣味性,物理学发展的历史背景和科学家的传奇故事,让我们容易地接受方程的存在。
2.思辨性,对物理和数学的关系的思考,方程为何能带动科学家进入新的领域,无处不是透着思辨的味道。
可以说,每一个方程都是物理学家探索世界本质过程中的一次尝试,而每一个结果都是思想变革的种子。
【内容简介】
在物理学开始出现的时候,物理学并没涉及数学,当然物理学里也就没有出现数学方程式,而只是纯文字的叙述。到法国数学家和物理学家笛卡儿开始研究物理学的时候,他首开先河在物理学中开始引入数学。从此,我们对世界的认识开始有所改观。本书把物理学发展进程中的关键事件和关键点梳理出来,然后通过公式的发现与应用,把历史故事讲述得更有条理,更有针对性,从而揭示出科学家认识这个世界的艰难历程。
【作者简介】
杨建邺,生于1935年,湖北红安人,武汉华中科技大学物理学院退休教授。对物理学史、物理学家和诺贝尔奖得主的事迹有特别的兴趣。著有《杰出物理学家的失误》《玻尔传》《爱因斯坦传》《窥探上帝的秘密——量子史话》等;译有《爱因斯坦传》《原子舞者——费米传》《夸克与美洲豹》等;主编有《20 世纪诺贝尔奖获奖者辞典》《诺贝尔奖史话》等。
【目 录】
一、天上与地下力的统一—牛顿的万有引力方程 ··················1
1. 光荣从黑暗中迅速生长 ···········································3
2. 哲学家笛卡儿 ·····················································16
3. 天空立法者—开普勒 ··········································19
4. 牛顿和万有引力定律的建立 ····································37
5. 万有引力定律是普适的吗? ····································44
二、电和磁的转换—麦克斯韦方程组 ·······························54
1. 一位喜爱哲学沉思的物理学家 ·································56
2. 电学中的牛顿—安培 ··········································59
3. 物理学基础中最深刻的变化 ····································61
4.“上帝的神来之笔” ·············································68
三、量子力学的基石—普朗克方程 ··································85
1. 紫外灾难的出现···················································85
2. 爱因斯坦使普朗克坐立不安 ····································94
四、引力的几何语言—广义相对论方程 ··························101
1.“我一生最愉快的思想” ······································102
2.“宇宙新理论和牛顿观念破产” ·····························108
3. 广义相对论方程比爱因斯坦更聪明 ··························112
五、矩阵力学的诞生—非对易方程 ································120
1. 走进物理学殿堂·················································122
2. 玻尔节上遇玻尔·················································125
3. 差一点得不到博士学位 ········································131
4. 哥本哈根之行,灵感突发 ·····································133
5. 量子力学的新形式 ··············································136
六、波动力学的提名—薛定谔方程 ································145
1. 维也纳大学出来的物理学家 ··································146
2. 机遇找到了薛定谔 ··············································150
3. 惊喜和诅咒并存·················································155
4. 薛定谔方程比薛定谔还聪明! ·······························160
七、发现负能量—狄拉克方程 ·····································164
1. 狄拉克青少年时期 ··············································166
2. 剑桥大学的研究生 ··············································168
3. 初显身手,气象不凡 ···········································170
4. 狄拉克方程第一个意想不到的礼物—自旋 ··············174
5. 狄拉克方程的第二个意想不到的礼物—反粒子 ········180
八、相互作用的统一—杨 - 米尔斯场方程 ·······················184
1. 守恒和不变性之间的关系:诺特定律 ·······················186
2. 布鲁克海文实验室“十分不同的”感受 ····················189
3. 规范不变性和走火入魔 ········································190
4. 友谊、困难和辉煌 ··············································195
5. 希格斯和对称性自发破缺 ·····································200
九、数学与物理的分与合—方程式何以比物理学家聪明·····208
公式的出现,改变了物理学的表达,让物理有了本质的飞跃,进而冲击了我们的世界观。
【编辑推荐】
这是一本讲述人类的智慧结晶方程如何反过来影响人类思维的过程,这种奇特的现象,在物理学中尤为突出。因此,结合物理学史,国内知名的诺贝尔奖研究者、科普专家杨建邺老先生,将这一过程用八个方程展现了出来。围绕方程展开的,不是艰深的物理术语,而是科学家们探索物理知识的传奇故事。也因此,这本书适合所有喜爱物理的人观看。
本书特点:
1.趣味性,物理学发展的历史背景和科学家的传奇故事,让我们容易地接受方程的存在。
2.思辨性,对物理和数学的关系的思考,方程为何能带动科学家进入新的领域,无处不是透着思辨的味道。
可以说,每一个方程都是物理学家探索世界本质过程中的一次尝试,而每一个结果都是思想变革的种子。
【内容简介】
在物理学开始出现的时候,物理学并没涉及数学,当然物理学里也就没有出现数学方程式,而只是纯文字的叙述。到法国数学家和物理学家笛卡儿开始研究物理学的时候,他首开先河在物理学中开始引入数学。从此,我们对世界的认识开始有所改观。本书把物理学发展进程中的关键事件和关键点梳理出来,然后通过公式的发现与应用,把历史故事讲述得更有条理,更有针对性,从而揭示出科学家认识这个世界的艰难历程。
【作者简介】
杨建邺,生于1935年,湖北红安人,武汉华中科技大学物理学院退休教授。对物理学史、物理学家和诺贝尔奖得主的事迹有特别的兴趣。著有《杰出物理学家的失误》《玻尔传》《爱因斯坦传》《窥探上帝的秘密——量子史话》等;译有《爱因斯坦传》《原子舞者——费米传》《夸克与美洲豹》等;主编有《20 世纪诺贝尔奖获奖者辞典》《诺贝尔奖史话》等。
【目 录】
一、天上与地下力的统一—牛顿的万有引力方程 ··················1
1. 光荣从黑暗中迅速生长 ···········································3
2. 哲学家笛卡儿 ·····················································16
3. 天空立法者—开普勒 ··········································19
4. 牛顿和万有引力定律的建立 ····································37
5. 万有引力定律是普适的吗? ····································44
二、电和磁的转换—麦克斯韦方程组 ·······························54
1. 一位喜爱哲学沉思的物理学家 ·································56
2. 电学中的牛顿—安培 ··········································59
3. 物理学基础中最深刻的变化 ····································61
4.“上帝的神来之笔” ·············································68
三、量子力学的基石—普朗克方程 ··································85
1. 紫外灾难的出现···················································85
2. 爱因斯坦使普朗克坐立不安 ····································94
四、引力的几何语言—广义相对论方程 ··························101
1.“我一生最愉快的思想” ······································102
2.“宇宙新理论和牛顿观念破产” ·····························108
3. 广义相对论方程比爱因斯坦更聪明 ··························112
五、矩阵力学的诞生—非对易方程 ································120
1. 走进物理学殿堂·················································122
2. 玻尔节上遇玻尔·················································125
3. 差一点得不到博士学位 ········································131
4. 哥本哈根之行,灵感突发 ·····································133
5. 量子力学的新形式 ··············································136
六、波动力学的提名—薛定谔方程 ································145
1. 维也纳大学出来的物理学家 ··································146
2. 机遇找到了薛定谔 ··············································150
3. 惊喜和诅咒并存·················································155
4. 薛定谔方程比薛定谔还聪明! ·······························160
七、发现负能量—狄拉克方程 ·····································164
1. 狄拉克青少年时期 ··············································166
2. 剑桥大学的研究生 ··············································168
3. 初显身手,气象不凡 ···········································170
4. 狄拉克方程第一个意想不到的礼物—自旋 ··············174
5. 狄拉克方程的第二个意想不到的礼物—反粒子 ········180
八、相互作用的统一—杨 - 米尔斯场方程 ·······················184
1. 守恒和不变性之间的关系:诺特定律 ·······················186
2. 布鲁克海文实验室“十分不同的”感受 ····················189
3. 规范不变性和走火入魔 ········································190
4. 友谊、困难和辉煌 ··············································195
5. 希格斯和对称性自发破缺 ·····································200
九、数学与物理的分与合—方程式何以比物理学家聪明·····208
在我看来星际穿越并不是真正意义上的科幻片,因为它从本质上抵抗近代科学所提供的机械论的宇宙观:把一个我们生活、相爱并且消亡在其中的质的可感世界,替换成了一个量的、几何实体化了的世界。科学主义的尽头是人类理性妄想征服宇宙的自负,正如维特根斯坦所说“即使一切可能的科学问题都已经得到解答,人生真正的问题也还完全未被触及。”
如果不是因为我爱的人住在这里,这个地球于我而言,毫无意义。
如果不是因为我爱的人住在这里,这个地球于我而言,毫无意义。
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