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JOHN CABOT UNIVERSITY

COURSE CODE: "ARCH 204"
COURSE NAME: "Technology of The Ancient World: Aqueducts, Armor, Automata"
SEMESTER & YEAR: Spring 2020
SYLLABUS

INSTRUCTOR: Jens Koehler
EMAIL: [email protected]
 HOURS: T2:15 PM 5:00 PM
TOTAL NO. OF CONTACT HOURS: 45
CREDITS: 3
PREREQUISITES: Partially on-site; activity fee: €25 or $33
OFFICE HOURS: cell 338-5256504
COURSE DESCRIPTION:
The course is an upper-level survey of technology in the ancient world, with particular emphasis on Greece and Rome. The course provides an in-depth familiarity and appreciation of the multifaceted nature of ancient technology through which students will gain a firm understanding of the links between technological innovation (history of engineering) and the development of human civilization (social history). It examines the architecture, waterworks, war machinery, and entertainment industry that framed and generated technological innovations, as well as production techniques related to the working of metal, wood and ceramics. The course will draw on both archaeological and text-based sources, and students will gain an awareness of field-specific methods and research theories: historical, philological and archaeological.
SUMMARY OF COURSE CONTENT:

The course provides an overview of the technological origins in Egypt and in Mesopotamia; civilizations with highly developed skills in construction, irrigation systems, and military equipment. However, the primary focus of this course will be on the inventions made in Greece and Rome – architecture, waterworks, war machinery, and the entertainment industry – as well as the developments of these over time.

Archaeologically, the on-site classes will benefit from the many well-preserved examples of ancient technology in Rome, like bridges, domed temples, aqueducts, and heated baths. Other buildings, smaller technical instruments, and objects made of organic materials (wood) are only known from the ancient texts and will be investigated through a close study of the philological sources.

The description and explanation of technological aspects are intended to provide a profound understanding of the historical background, of the changes occurring over time, and of the particular needs and resources that shaped the innovations.

Major fields of interest to be discussed in this course are:

·        Building Techniques: quarries and building materials, transport and construction tools. These were central in ancient societies and are relatively well documented, both for Greece and Rome.

·        Infrastructure: roads, bridges, tunnels, harbors and sea trade. Such aspects are still important; the Romans are responsible for some of the most famous monuments.

·        Hydraulic Engineering: aqueducts and sewers, reservoirs and cisterns, baths and toilets, mills. This is the heart of Roman technology, and still of great value for us today.

·        Military Technology: weapons and armor, walls and gates, warships. The dark or destructive side of human genius, often going ahead compared to other technologies.  

Furthermore, the production of metal and of wooden objects, and of ceramics, will be analyzed. Installations for games in amphitheaters and in theaters will be mentioned. Finally, mechanical art, better known from the written tradition, but much appreciated during the Hellenistic period, will be studied. Surprisingly, some principles of the above mentioned technology features still determine our modern world of high-tech, or they may open new ways toward sustainable energies.
LEARNING OUTCOMES:

Students will learn to identify examples of ancient world engineering and technology, and will be enabled to describe and interpret these correctly

Students are introduced to different methods and theories of research, developed for Archaeology and Ancient History

Students will acquire the tools to investigate ancient texts, images, and objects correctly

Students will learn about the evolution of technology in relation to the developments in social history

Students will improve their skills to observe and to describe basic principles, and consider the impact of change, through comparison between ancient and modern technologies

Students will hone their ability for research and critical thinking through the analysis of unknown monuments and objects

Students will develop their skills of critical analysis, presentation and communication skills through the written assignments as well as class discussion.
TEXTBOOK:
Book TitleAuthorPublisherISBN numberLibrary Call NumberCommentsFormatLocal BookstoreOnline Purchase
The Oxford Handbook of Engineering and Technology in the Classical World (2010)J. P. Olesonn/an/an/a    
REQUIRED RESERVED READING:
NONE

RECOMMENDED RESERVED READING:
NONE
GRADING POLICY
-ASSESSMENT METHODS:
AssignmentGuidelinesWeight
midterm - or worksheetshort answer questions20
oral presentationtopic to be selected; oral presentation, power pint or on-site (15 points), and handout (10 points)25
research projectoutline (5 points) - 2D drawing and final paper or 3D model and commentary (20 points)25
final exam - or homework/worksheetshort answer questions and essay choice (about 15/15 points)30

-ASSESSMENT CRITERIA:
AWork of this quality directly addresses the question or problem raised and provides a coherent argument displaying an extensive knowledge of relevant information or content. This type of work demonstrates the ability to critically evaluate concepts and theory and has an element of novelty and originality. There is clear evidence of a significant amount of reading beyond that required for the cour
BThis is highly competent level of performance and directly addresses the question or problem raised.There is a demonstration of some ability to critically evaluatetheory and concepts and relate them to practice. Discussions reflect the student’s own arguments and are not simply a repetition of standard lecture andreference material. The work does not suffer from any major errors or omissions and provides evidence of reading beyond the required assignments.
CThis is an acceptable level of performance and provides answers that are clear but limited, reflecting the information offered in the lectures and reference readings.
DThis level of performances demonstrates that the student lacks a coherent grasp of the material.Important information is omitted and irrelevant points included.In effect, the student has barely done enough to persuade the instructor that s/he should not fail.
FThis work fails to show any knowledge or understanding of the issues raised in the question. Most of the material in the answer is irrelevant.
-ATTENDANCE REQUIREMENTS:
ATTENDANCE REQUIREMENTS AND EXAMINATION POLICY

You cannot make-up a major exam (midterm or final) without the permission of the Dean’s Office. The Dean’s Office will grant such permission only when the absence was caused by a serious impediment, such as a documented illness, hospitalization or death in the immediate family (in which you must attend the funeral) or other situations of similar gravity. Absences due to other meaningful conflicts, such as job interviews, family celebrations, travel difficulties, student misunderstandings or personal convenience, will not be excused. Students who will be absent from a major exam must notify the Dean’s Office prior to that exam. Absences from class due to the observance of a religious holiday will normally be excused. Individual students who will have to miss class to observe a religious holiday should notify the instructor by the end of the Add/Drop period to make prior arrangements for making up any work that will be missed. The final exams are on Friday, June 28.
ACADEMIC HONESTY
As stated in the university catalog, any student who commits an act of academic dishonesty will receive a failing grade on the work in which the dishonesty occurred. In addition, acts of academic dishonesty, irrespective of the weight of the assignment, may result in the student receiving a failing grade in the course. Instances of academic dishonesty will be reported to the Dean of Academic Affairs. A student who is reported twice for academic dishonesty is subject to summary dismissal from the University. In such a case, the Academic Council will then make a recommendation to the President, who will make the final decision.
STUDENTS WITH LEARNING OR OTHER DISABILITIES
John Cabot University does not discriminate on the basis of disability or handicap. Students with approved accommodations must inform their professors at the beginning of the term. Please see the website for the complete policy.
SCHEDULE

Session

Session Focus

Reading Assignment

Other Assignment

Meeting Place

Jan. 21

1. Introduction and first walk. Infrastructure. Roads and bridges.

Oleson Intro, ch. 1. 3. Landels ch. 8-9. Houston 65-72.


in classroom C.2.4; 2nd part in the city center

Jan. 26

2. Architecture. Construction and Building materials.

Oleson ch. 11. 22. Landels 84-98. 170-185. 208-211. Adam. Laurence.


meet in classroom

Febr. 4

3. Water supply/Aqueducts. The Aqua Traiana under the American Academy.

Oleson ch. 5. 13. Landels 34-57. 211-215. romanaqueducts.info

early start!

meet at Tiber 1:30 pm,
(at AAR 1:55 pm)

Febr. 11

4. Baths and Construction. Water and heating. Baths of Caracalla.

Oleson ch. 9. 10. 11. Landels 84-96. 170-185. Adam. Nielsen.


meet at metro stop Circo Massimo

Febr. 18

5. Aqueducts. The Aqueduct Park in Rome. Aqua Marcia, Aqua Claudia.

Oleson ch. 11. Landels ch. 2. romanaqueducts.info


meet at Termini Railway Station/TBA

Febr. 25

6. Army camps and military equipment. Weapons and armor.

Oleson ch. 26. 27. Landels 99-132. Goldsworthy.


in classroom

March 3

7. midterm

midterm test - or quiz due

outline for research project due

in classroom

March 10

no class, Spring Break

March 17

8. City walls, gates, towers and army. Museo delle Mura.

Landels 99-132. Claridge.

(start of oral presentations)

meet at metro stop Circo Massimo

March 24 (Friday 27 ?)

9. Albano: Museum of the Legio II Parthica and Cistern. (?)

Oleson ch. 11. 12. Landels 38-39. Coarelli.

meet at Termini Railway Station/TBA

March 31

10. Naval industry. Ships and woodworking. Lake Nemi.

Oleson 17. 25. 25. Landels 133-169. 219-224. Casson.

in classroom

April 7

11. Reconstruction models, Leonardo's Machines exhibition.

Landels 9-25. 58-83

in classroom, 2nd part Palazzo della Cancelleria

April 14

12. Entertainment and mechanical art (automata).

Oleson ch. 29. 31. Landels 28-34.186-198. 199-208. Heron. Philon. Russo-Russo.

meet in classroom, 2nd part Colosseum (?)

April 21

13. Metals (bronze) and ceramic production. Glass and windows.

Oleson ch. 4. 16. 20. 21. Greene.

in classroom

April 28

14. Project presentations.

 

research project due


in classroom

May 4-8

15. final exam - or conclusion: debate on projects, homework/ worksheets

exam - or homework due

in classroom

Lesson 5) and 9) may be longer.

This is a prelimenary schedule!

 


REQUIRED RESERVED READING:

The Oxford Handbook of Engineering and Technology in the Classical World (2010)

J. P. Oleson (ed.)

Engineering in the Ancient World (1978)

J. G. Landels

The Ancient Engineers (1963/1995)

L. Sprague De Camp

Technology in the Ancient World (1979)

H. Hodges

Technology and Culture in Greek and Roman Antiquity (2007/2009)

S. Cuomo

Greek and Roman Technology (1984)

K. D. White

Rome. Archaeological Guide (1998/2010)

A. Claridge

RECOMMENDED RESERVED READING:

Roman Building (2004)

3000 years of design engineering and construction (2007)

Ships and Seamanship in the Ancient World (1995)

Roman Warfare (2005)

Roman Pottery (1993)

Greek and Roman Technology (1998)

Concrete Vaulted Construction in Imperial Rome: Innovations in Context (2009)

The Roads of Roman Italy (1997)

Roman Aqueducts and Water Supply (2002)

Constructors of the Ancient World (2010)

Thermae et Balnea (1990/1993)

Pompei. La tecnologia dimenticata (2007)

Roman Builders. A Study in Architectural Process (2003)

Baths and Bathing in Classical Antiquity (1992)

De Aquaeductu (Loeb Classical Library 1980)

Rome and Environs (2007/2014)

J.-P. Adam

W. Addis

L. Casson

A. Goldsworthy

K. Greene

G. W. Humphrey, J. P. Oleson, A. N. Sherwood (ed.)

L. Lancaster

R. Laurence

T. Hodge

C. G. Malacrino

I. Nielsen

F. Russo, F. Russo

R. Taylor

F. Yegul

Frontinus (Bennett transl.)

F. Coarelli

www.traianvs.net

I. Moreno Gallo

www.romanaqueducts.info

W. Schram