The aim of the course is to introduce some relevant guidelines for the development of scientific instruments in the field of the history of ancient and modern physics. The cultural and social contexts in which this discipline has been developed will also be considered. Learning will be organised in such a way that, by the end of the course, the student will have acquired operational skills in the analysis, cataloguing and study of a wide range of historical scientific apparatus within the physical and astronomical sciences. On the basis of a final essay (to be agreed with the teacher), specific guidance will also be given on how to write in a scientific style. The course will offer a rich iconography of scientific instruments from the most important science museums in the world. During the course bibliographic materials and thematic studies will be suggested. Lesson attendance is definitely recommended.

Why study scientific instruments?

The places of instrumentation and instrumental type.

History of Science and History of scientific instruments, what differences?

The origins of scientific historiography. The art of scientific instrument: collecting.

Scientific instruments and science education: the reflection of Thomas Kuhn.

Science tools to amplify. The instrumental precision is objective? The problem of classification.

Internet and historical-scientific research.

The best historical collection of scientific instruments in the world.

The rise of precision instrument in the antiquity. Main features of the ancient astronomical instruments.

The astrolabe: history, elements of the celestial sphere, typology, construction, description, operations and use.

History of Optics. The “vision” problem and the birth of optical instruments. Lenses and glasses.

The time of Galileo and the birth of the telescope. Genesis, discoveries and scientific instruments in Galileo Galilei.

Experiments at the “Accademia del Cimento”: the  "Saggi di Naturali Esperienze".

The “Horror Vacui” and the History of the Vacuum. Birth and development of Pneumatics until the nineteenth century.

Reflecting and refracting telescopes from Galileo to the nineteenth century: some developments. Origins of the optical microscope, its development in the eighteenth century.

The nineteenth century progress of optical microscope: the improvements carried out by Giovanni Battista Amici.

The electricity in the eighteenth century. Electrophorus, Leyden jars and electrical machines. A paradigmatic scientific instrument:  Coulomb’s torsion balance.

The Volta’s pile and the birth of Electromagnetism. Magnetic effects of electric current: the Leopoldo Nobili’s galvanometer. Developments of the first magneto-electric machines.

No prerequisities

The course, through an integrated vision of the scientific culture with a focus on some technical-instrumental and experimental paths of the physical and astronomical sciences, aims to provide the student with a higher level of critical thinking and, at the same time, a stronger control of the practical  training and epistemic aspects that continue to drive the evolution of science today. In particular, the student must be able to apply in full autonomy some of the operational knowledge acquired during the course and to develop an effective communication skills.  With these educational objectives the student will be able to develop a historical-scientific essay (previously agreed with the teacher) aimed at the study of historical-scientific materials (typically collections of ancient scientific instruments, texts and historical treatises on physics or astronomy, manuscripts, etc.) available in ancient schools, seminaries, academies, archives and libraries in the area where he lives.

The teaching material prepared by the lecturer in addition to recommended textbooks (such as for instance slides, lecture notes, exercises, bibliography) and communications from the lecturer specific to the course can be found inside the Moodle platform › blended.uniurb.it

Seminars and guided tours of historical collections of scientific instruments.

Teaching

Lectures will be produced using video and PowerPoint slides. Class discussions on key historical and scientific issues will be encouraged.

Attendance

The attending students are invited to contact the teacher at the end of the course to arrange a short historical research on a particular topic (essay) for the final examination.

Course books

Gerard L. E. Turner, Nineteenth-Century Scientific Instruments, Sotheby Publications, University of California Press, Berkeley and Los Angeles 1983.

Antony Turner, Early Scientific Instruments Europe 1400-1800, Sotheby's Publications, London 1987.

Gerard L. E. Turner (a cura di), Storia delle Scienze. Gli strumenti, Vol. 1, Einaudi 1991.

William R. Shea (a cura di), Storia delle Scienze. Le Scienze Fisiche e Astronomiche, Vol. 2, Einaudi 1992.

Thomas Crump, A brief history of science as seen through the development of scientific instruments, Carrol & Graf Publishers, New York 2001.

Robert Bud, Deborah Warner (editors), Instruments of Science: An Historical Encyclopedia, Garland Publishing, London & New York 1998. 

Assessment

The final examination is characterised by an oral discussion. The candidate will have to present the content of the pre-arranged essay and answer some questions on the content of the programme carried out during the course. The following criteria and evaluation parameters will be duly taken into consideration during the oral examination:

- The ability to present the topics studied in a clear and competent way, using an appropriate historical-scientific vocabulary;

- Level of originality and depth of the historical-scientific topic presented in the essay;

- Practical skills in identifying, evaluating and cataloguing the historical-scientific material presented in the essay, as well as the ability to use appropriate conceptual and bibliographical tools to produce relevant texts with an appropriate scientific style;

- the ability to present the results of the essay;

- Level of learning and deepening of the topics developed during the course.

The final assessment will be based on a scale of 30 points, divided into five levels: insufficient, sufficient, discreet, good, excellent.

Disabilità e DSA

Le studentesse e gli studenti che hanno registrato la certificazione di disabilità o la certificazione di DSA presso l'Ufficio Inclusione e diritto allo studio, possono chiedere di utilizzare le mappe concettuali (per parole chiave) durante la prova di esame.

A tal fine, è necessario inviare le mappe, due settimane prima dell’appello di esame, alla o al docente del corso, che ne verificherà la coerenza con le indicazioni delle linee guida di ateneo e potrà chiederne la modifica.

Teaching

Guidance for the oral examination and also for the preparation of the examination essay, by means of pre-arranged meetings in the teacher's office or alternatively by means of Skype, telephone, email.

Attendance

Non-attending students are invited to contact the teacher after the start of the course to make detailed arrangements about the programme and the final essay to prepare for the examination.

Course books

Gerard L. E. Turner, Nineteenth-Century Scientific Instruments, Sotheby Publications, University of California Press, Berkeley and Los Angeles 1983.

Antony Turner, Early Scientific Instruments Europe 1400-1800, Sotheby's Publications, London 1987.

Gerard L. E. Turner (a cura di), Storia delle Scienze. Gli strumenti, Vol. 1, Einaudi 1991.

William R. Shea (a cura di), Storia delle Scienze. Le Scienze Fisiche e Astronomiche, Vol. 2, Einaudi 1992.

Thomas Crump, A brief history of science as seen through the development of scientific instruments, Carrol & Graf Publishers, New York 2001.

Robert Bud, Deborah Warner (editors), Instruments of Science: An Historical Encyclopedia, Garland Publishing, London & New York 1998. 

Assessment

The final programme and essay must be agreed in advance with the teacher. The final examination consists of an oral discussion. The candidate will have to present the content of the previously agreed essay and answer some questions on the content of a text assigned by the teacher as a substitute programme for the course held in attendance. The following criteria and evaluation parameters will be duly taken into consideration during the oral examination:

- The ability to present the topics studied in a clear and competent way, using an appropriate historical-scientific vocabulary;

- Level of originality and depth of the historical-scientific topic presented in the essay;

- Practical skills in identifying, evaluating and cataloguing the historical-scientific material presented in the essay, as well as the ability to use appropriate conceptual and bibliographical tools to produce relevant texts with an appropriate scientific style;

- the ability to present the results of the essay;

- Level of learning and deepening of the topics assigned by the teacher as a substitute programme for the exam (text).

The final grade, on a scale of 30 points, will be determined according to a grading scale articulated in five levels: insufficient, sufficient, discreet, good, excellent.

Disabilità e DSA

Le studentesse e gli studenti che hanno registrato la certificazione di disabilità o la certificazione di DSA presso l'Ufficio Inclusione e diritto allo studio, possono chiedere di utilizzare le mappe concettuali (per parole chiave) durante la prova di esame.

A tal fine, è necessario inviare le mappe, due settimane prima dell’appello di esame, alla o al docente del corso, che ne verificherà la coerenza con le indicazioni delle linee guida di ateneo e potrà chiederne la modifica.

The student may request to take the final examination in English with an alternative bibliography.