https://www.science-story-telling.eu/fileadmin/content/projekte/storytelling/biografien/biografien-pol/lind-biografie-pl.pdf
Biografia: James Lind 1 Storytelling Teaching Model: wiki.science-stories.org © 2012, S@TM Research Group Biografia: James Lind (1716-1794) James Lind był Szkockim lekarzem. Był on pionierem morskiej
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poprawne, spadek musi wytworzyć 1 stopień ciepła na 817 stóp wysokości, a zatem temperatura Niagary będzie wyższa o 1/5 stopnia przy spadku o 160 stóp. W 1847 roku Joule ożenił się z Amelią, córką Johna Grimesa [...] ujściem wodospadu będzie o jeden stopień Farenheit’a cieplejsza od wody na górze, na każde ok. 817 stóp wysokości wodospadu z powodu energii kinetycznej zamienianej na ciepło, gdy woda uderza o skały na
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Biografia: Maria Skłodowska-Curie 1 Storytelling Teaching Model: wiki.science-stories.org Biografia: Maria Skłodowska-Curie Maria (Marie Fr.) Skłodowska-Curie (urodzona w Warszawie, Polska, w 1867 rok
https://www.science-story-telling.eu/fileadmin/content/projekte/storytelling/geschichten/geschichten-eng/liebig-story-gb.pdf
in the soil, the plant develops until it uses this substra- tum, and afterwards it’s development stops.’, Liebig looked at his friend with the same disbelief with which he had looked at his students when
https://www.science-story-telling.eu/fileadmin/content/projekte/storytelling/zip/zip-eng/joliot-curie.zip
moved in an erratic manner. The re- markable detail about this motion was that it never appeared to stop, moreover, the moving particles were certainly not alive. It remained an open question for about half
https://www.science-story-telling.eu/fileadmin/content/projekte/storytelling/geschichten/geschichten-pol/joulehartearbeit-story-pl.pdf
Ciężka praca naukowca: James Prescott Joule i mechaniczny równoważnik ciepła 1 Storytelling Teaching Model: wiki.science-stories.org © 2012, S@TM Research Group Ciężka praca naukowca: James Prescott J
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didn’t hear a different sound: The rain wasn’t pouring down onto the roof any longer, it had finally stopped and she would be going on the trip that her stepfather had promised they would make later that day
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https://www.science-story-telling.eu/fileadmin/content/projekte/storytelling/geschichten/geschichten-eng/rumfordsuppe-story-gb.pdf
the fifth of June, in Munich, Germany in the year 1784. A smart-looking horse and carriage came to a stop on the fashionable Schwabinger Street in front of a pala- tial villa. The carriage had a single rider
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filled it with hot water nearly at the boiling point, then inserted the end of a thermometer through a stop- per in the hole so that it extended to the center of the container. Then, he measured the amount [...] According to ca- loric theory, the metal from the cannon should eventu- ally run out of caloric and stop producing heat. In his most famous experiment, Rumford arranged for a can- non to be bored under water [...] Since heat kept getting produced by the cannon-boring proc- ess and its production did not drop or stop over time, Rumford argued that heat could not be a caloric fluid. Rumford also investigated whether