Petřínský vrch, vlídný podzimní podvečer a plně obsazený vůz lanovky, stoupající mlžným oparem směrem ke Štefánikově observatoři. Ano, jedna z mnoha mých výprav za hvězdami - ale tentokrát s poněkud jiným nádechem. Očekávalo mě totiž setkání s novou knihou a jejím autorem. A nebyla to kniha jen tak ledajaká - týkala se samotného nekonečna. Na petřínské hvězdárně byla křtěna kniha RNDr. Petera Zamarovského CSc. Mýtus nekonečno, představující pohled do historického a filozofického zákulisí matematiky a fyziky (vydalo Karolinum, Praha 2018). and Jana Žďárská.
V první polovině srpna se na skautské základně Dobrá Voda u Třebíče na Vysočině uskutečnil letní tábor korespondenčního semináře Výfuk (Výpočty fyzikálních úkolů), organizovaný studenty Matematicko-fyzikální fakulty Univerzity Karlovy.
This article presents translations from the Nobel lectures for physics in 2017 given by all three laureates, who decided to use the same title, but each one focused on different aspects of the discovery. Weiss discussed the early history of gravitational waves and presented the concepts needed to understand the detectors as well as the challenges faced in measuring strains as small as 10-21. Barish describes how the LIGO project was organized to make steady improvements and ultimately carried out a successful scientific program. He describes signal detections as well as ideas of how to improve the detectors. Thorne presented the broader aspects of the new field of gravitational wave astronomy. He described the critical role of numerical relativity simulations and understanding quantum mechanics of precision measurements. He also gave a vision of the science that could come from an investigation of the gravitational wave sky from periods of fractions of milliseconds to tens of billions of years., Rainer Weiss., and Obsahuje bibliografické odkazy
This article presents translations from the Nobel lectures for physics in 2017 given by all three laureates, who decided to use the same title, but each one focused on different aspects of the discovery. Weiss discussed the early history of gravitational waves and presented the concepts needed to understand the detectors as well as the challenges faced in measuring strains as small as 10-21. Barish describes how the LIGO project was organized to make steady improvements and ultimately carried out a successful scientific program. He describes signal detections as well as ideas of how to improve the detectors. Thorne presented the broader aspects of the new field of gravitational wave astronomy. He described the critical role of numerical relativity simulations and understanding quantum mechanics of precision measurements. He also gave a vision of the science that could come from an investigation of the gravitational wave sky from periods of fractions of milliseconds to tens of billions of years., Barry C. Barish., and Obsahuje bibliografické odkazy
This article presents translations from the Nobel lectures for physics in 2017 given by all three laureates, who decided to use the same title, but each one focused on different aspects of the discovery. Weiss discussed the early history of gravitational waves and presented the concepts needed to understand the detectors as well as the challenges faced in measuring strains as small as 10-21. Barish describes how the LIGO project was organized to make steady improvements and ultimately carried out a successful scientific program. He describes signal detections as well as ideas of how to improve the detectors. Thorne presented the broader aspects of the new field of gravitational wave astronomy. He described the critical role of numerical relativity simulations and understanding quantum mechanics of precision measurements. He also gave a vision of the science that could come from an investigation of the gravitational wave sky from periods of fractions of milliseconds to tens of billions of years., Kip S. Thorne., and Obsahuje bibliografické odkazy