大学职业搜题刷题APP
下载APP
首页
课程
题库模板
Word题库模板
Excel题库模板
PDF题库模板
医考护考模板
答案在末尾模板
答案分章节末尾模板
题库创建教程
创建题库
登录
logo - 刷刷题
创建自己的小题库
搜索
【单选题】

The founder of quantum mechanics (量子力学) and the inventor of the uncertainty principle, Werner Heisenberg was born in Wurzburg and brought up in Munich, where he entered the university in 1920 to study physics under Arnold Sommerfeld.After a brief stay at Gottingen University, he moved to Copenhagen to pursue research under Niels Boho and remained there until 1927.
After 1913 the quantum theory made considerable progress, but by 1924 it was running out of steam, largely owing to its lack of a coherent and systematic mathematical foundation.In the summer of 1925 Heisenberg discovered the foundation of just such a mechanics.Then his theory was rapidly developed by Max Born, Pascual Jordan, and P.A.M.Dirac.
In the spring of 1927, while a lecture at Boho's institute, Heisenberg followed up his discovery of the uncertainty relations, which are of central importance in quantum mechanics.
Heisenberg was awarded the Nobel Prize for Physics in 1932 for his contribution t9 the development of quantum mechanics.From 1927 to 1941 he was professor of theoretical physics at the University of Leipzig.Although privately unsympathetic to the Nazi regime he remained in Germany throughout the Second World Wax, seeing it as his duty to work for the preservation of German physics and its future reconstruction.From 1941 to 1945 he was Director of the Kiser Wihelm Institute for Physics at Berlin, where he worked with Otto Hahn on the development of a nuclear reactor.After the war he became Director of the Max Planck Institute for Physics and played a prominent part in the promotion of scientific research in Germany.
Heisenberg has an important part in 20th century thought: the notion of uncertainty which he introduced is, like Einstein's concept of relativity, one of the major idea of the century; it has changed not only physics but our entire world picture.
When was the firm foundation of quantum theory laid?

The founder of quantum mechanics (量子力学) and the inventor of the uncertainty principle, Werner Heisenberg was born in Wurzburg and brought up in Munich, where he entered the university in 1920 to study physics under Arnold Sommerfeld. After a brief stay at Gottingen University, he moved to Copenhagen to pursue research under Niels Boho and remained there until 1927.
After 1913 the quantum theory made considerable progress, but by 1924 it was running out of steam, largely owing to its lack of a coherent and systematic mathematical foundation. In the summer of 1925 Heisenberg discovered the foundation of just such a mechanics. Then his theory was rapidly developed by Max Born, Pascual Jordan, and P. A.M. Dirac.
In the spring of 1927, while a lecture at Boho's institute, Heisenberg followed up his discovery of the uncertainty relations, which are of central importance in quantum mechanics.
Heisenberg was awarded the Nobel Prize for Physics in 1932 for his contribution t9 the development of quantum mechanics. From 1927 to 1941 he was professor of theoretical physics at the University of Leipzig. Although privately unsympathetic to the Nazi regime he remained in Germany throughout the Second World Wax, seeing it as his duty to work for the preservation of German physics and its future reconstruction. From 1941 to 1945 he was Director of the Kiser Wihelm Institute for Physics at Berlin, where he worked with Otto Hahn on the development of a nuclear reactor. After the war he became Director of the Max Planck Institute for Physics and played a prominent part in the promotion of scientific research in Germany.
Heisenberg has an important part in 20th century thought: the notion of uncertainty which he introduced is, like Einstein's concept of relativity, one of the major idea of the century; it has changed not only physics but our entire world picture.
When was the firm foundation of quantum theory laid?

A.
In 1913.
B.
In 1924.
C.
In 1925.
D.
In 1927.

手机使用
分享
复制链接
新浪微博
分享QQ
微信扫一扫
微信内点击右上角“…”即可分享
反馈
收藏 - 刷刷题收藏
举报
参考答案:
举一反三

【单选题】以量子力学和相对论产生为标志的科人学革全命发生于下面哪一时期()

A.
16世纪末17世纪初
B.
17世纪末18世纪初
C.
18世纪末19世纪初
D.
19世纪末20世纪初

【单选题】量子力学的里程碑基石是()。

A.
普朗克黑体辐射假说
B.
光电效应
C.
玻尔原子核模型
D.
德布罗意波粒二象性假说

【多选题】中国量子计算原型机“九章”问世,这意味着中国在量子计算领域上所取得了具有里程碑意义的突破。继美国之后,中国成为第二个实现“量子优越性”的国家。下列有关量子力学的相关说法正确是:

A.
经典力学和量子力学被认为是现代物理学的两大基本支柱
B.
量子力学从根本上没有改变人类对物质结构及其相互作用的理解
C.
量子计算机通过量子力学规律以实现数学和逻辑运算,处理和储存信息
D.
量子计算机的特点主要有运行速度较快、处置信息能力较强、应用范围较广

【单选题】下列哪项不属于动脉导管未闭的血动力学改变()。

A.
左向右分流
B.
右心室为混合血
C.
肺动脉压的增高
D.
肺动脉血含氧量增加
E.
体循环血量相对降低

【单选题】电子在通过不均匀磁场时,按照量子力学下列哪种现象将会发生?()

A.
电子束分三个方向劈裂
B.
电子束会劈裂成两条分立线
C.
电子不会通过磁场
D.
电子束不会发生劈裂

【单选题】快速舒张期在血流动力学上的意义()

A.
血液快速从左心室射到主动脉
B.
血液在主动脉反弹回流到左心室
C.
血液在这期间快速、大量从左心房充盈到左心室
D.
血液从右心房缓慢充盈到右心室
E.
血液从左心房缓慢地充盈到左心室
相关题目:
【单选题】以量子力学和相对论产生为标志的科人学革全命发生于下面哪一时期()
A.
16世纪末17世纪初
B.
17世纪末18世纪初
C.
18世纪末19世纪初
D.
19世纪末20世纪初
【单选题】量子力学的里程碑基石是()。
A.
普朗克黑体辐射假说
B.
光电效应
C.
玻尔原子核模型
D.
德布罗意波粒二象性假说
【多选题】中国量子计算原型机“九章”问世,这意味着中国在量子计算领域上所取得了具有里程碑意义的突破。继美国之后,中国成为第二个实现“量子优越性”的国家。下列有关量子力学的相关说法正确是:
A.
经典力学和量子力学被认为是现代物理学的两大基本支柱
B.
量子力学从根本上没有改变人类对物质结构及其相互作用的理解
C.
量子计算机通过量子力学规律以实现数学和逻辑运算,处理和储存信息
D.
量子计算机的特点主要有运行速度较快、处置信息能力较强、应用范围较广
【单选题】下列哪项不属于动脉导管未闭的血动力学改变()。
A.
左向右分流
B.
右心室为混合血
C.
肺动脉压的增高
D.
肺动脉血含氧量增加
E.
体循环血量相对降低
【单选题】电子在通过不均匀磁场时,按照量子力学下列哪种现象将会发生?()
A.
电子束分三个方向劈裂
B.
电子束会劈裂成两条分立线
C.
电子不会通过磁场
D.
电子束不会发生劈裂
【单选题】快速舒张期在血流动力学上的意义()
A.
血液快速从左心室射到主动脉
B.
血液在主动脉反弹回流到左心室
C.
血液在这期间快速、大量从左心房充盈到左心室
D.
血液从右心房缓慢充盈到右心室
E.
血液从左心房缓慢地充盈到左心室
刷刷题-刷题-导入试题 - 刷刷题
参考解析:
AI解析
重新生成
题目纠错 0
发布
刷刷题-刷题-导入试题 - 刷刷题刷刷题-刷题-导入试题 - 刷刷题刷刷题-刷题-导入试题 - 刷刷题
刷刷题-刷题-导入试题 - 刷刷题
刷刷题-刷题-导入试题 - 刷刷题
刷刷题-单词鸭