Proximate Sources of Growth: Capital and Technology, 1700–1870

doi:10.1017/9781316671566.015

13 - Proximate Sources of Growth: Capital and Technology, 1700–1870

from Part II - Factors Governing Differential Outcomes in the Global Economy

Published online by Cambridge University Press: 03 June 2021

Alessandro Nuvolari and

Masayuki Tanimoto

Edited by

Stephen Broadberry and

Kyoji Fukao

Show author details

Stephen Broadberry: Affiliation:
University of Oxford
Kyoji Fukao: Affiliation:
Hitotsubashi University, Tokyo

Book contents

Get access

Summary

This chapter is concerned with two fundamental driving forces of the process of modern economic growth: capital accumulation and technical change. The importance of these factors as drivers of productivity growth underwent a major acceleration with the First Industrial Revolution. This chapter surveys the available evidence on capital accumulation since 1700 in different countries, highlighting the expansion of fixed capital. The chapter then outlines the main contours of technical advances of the First Industrial Revolution, noting the critical role played by two technological trajectories: 1) mechanization, and 2) the development of steam power technology. Finally, the chapter discusses the main sources of technical progress in this historical period, flagging some directions for further research.

Keywords

capital innovation investment science steam power machine tools patents learning-by-doing

Type: Chapter
Information: The Cambridge Economic History of the Modern World , pp. 312 - 338

DOI: https://doi.org/10.1017/9781316671566.015 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2021

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abramovitz, M. (1993). ‘The Search for the Sources of Growth: Areas of Ignorance Old and New’, Journal of Economic History, 53, 217–243.CrossRef Google Scholar

Abramovitz, M. and David, P. (1973). ‘Reinterpreting Economic Growth: Parables and Realities’, American Economic Review, 63, 428–439.Google Scholar

Abramovitz, M. and David, P. (2001). ‘Two Centuries of American Macroeconomic Growth: From Exploitation of Resource Abundance to Knowledge-Driven Development’, Stanford Institute for Economic Policy Research working paper.Google Scholar

Akimoto, H. (1987). Zenkōgyōkajidai no Keizai (Economy in the Pre-industrial Period), Kyoto: Mineruvashobō.Google Scholar

Allen, R. C. (2009). The British Industrial Revolution in Global Perspective, Cambridge University Press.CrossRef Google Scholar

Allen, R. C. (2012). ‘Technology and the Great Divergence: Global Economic Development Since 1820’, Explorations in Economic History, 49, 1–16.Google Scholar

Allen, R. C. (2018). ‘Spinning Their Wheels: A Reply to Jane Humphries and Benjamin Schneider’, Oxford Discussion Papers in Economic and Social History, 166, www.economics.ox.ac.uk/materials/working_papers/4650/166julyallen.pdf (accessed 9 November 2020).Google Scholar

Ashraf, Q. and Galor, O. (2011). ‘Dynamics and Stagnation in the Malthusian Epoch’, American Economic Review, 101, 2003–2041.CrossRef Google Scholar PubMed

Bessen, J. and Nuvolari, A. (2016). ‘Knowledge Sharing Among Inventors: Some Historical Perspectives’, in Harhoff, D. and Lakhani, K. (eds.), Revolutionizing Innovation: Users, Communities and Open Innovation, Cambridge, MA: MIT Press, 135–155.Google Scholar

Bolt, J. and van Zanden, J. L. (2014). ‘The Maddison Project: Collaborative Research on Historical National Accounts’, Economic History Review, 67, 627–651.CrossRef Google Scholar

Brewer, J. (1988). The Sinews of Power. War, Money and the English State, 1688–1783, Cambridge, MA: Harvard University Press.Google Scholar

Broadberry, S. and de Pleijt, A. (2018). ‘Capital and Economic Growth in Britain, 1270–1870’, paper presented at World Economic History Congress, Boston.Google Scholar

Broadberry, S., Campbell, B., Klein, A., Overton, M. and van Leeuwen, B. (2015). British Economic Growth 1270–1870, Cambridge University Press.Google Scholar

Brunt, L. (2006). ‘Rediscovering Risk: Country Banks as Venture Capital Firms in the First Industrial Revolution’, Journal of Economic History, 66, 74–102.Google Scholar

Chapman, S. (1972). The Cotton Industry in the Industrial Revolution, London: Macmillan.Google Scholar

Chapman, S. and Butt, J. (1988). ‘The Cotton Industry, 1775–1856’, in Feinstein, C. and Pollard, S. (eds.), Studies in Capital Formation in the United Kingdom, 1750–1920, Oxford: Clarendon Press, 105–125.Google Scholar

Cipolla, C. M. (1962). The Economic History of the World Population, Harmondsworth: Penguin.Google Scholar

Cipolla, C. M. (1976). Before the Industrial Revolution. European Society and Economy, 1000–1700, London: Routledge.Google Scholar

Clark, G. (2007). A Farewell to Alms. A Brief Economic History of the World, Princeton University Press.CrossRef Google Scholar

Cookson, G. (2018). The Age of Machinery. Engineering the Industrial Revolution, 1770–1850, Woodbridge: Boydell.CrossRef Google Scholar

Crafts, N. F. R. (2004). ‘Steam as a General-Purpose Technology: A Growth Accounting Perspective’, Economic Journal, 114, 338–351.CrossRef Google Scholar

Crafts, N. F. R. (2009). ‘Solow and Growth Accounting: a Perspective from Quantitative Economic History’, History of Political Economy, 41, 200–220.Google Scholar

Crafts, N. F. R. and Mills, T. (2004). ‘Was the 19^th century British growth steam powered ? The climacteric revisited’, Explorations in Economic History, 41, 156–171.Google Scholar

Crouzet, F. (1972). ‘Editor’s Introduction’, in Crouzet, F. (ed.), Capital Formation in the Industrial Revolution, London: Methuen.Google Scholar

David, P. (1975). Technical Choice, Innovation and Economic Growth, Cambridge University Press.Google Scholar

Davies, R. and Pollard, S. (1988). ‘The Iron Industry, 1775–1850’, in Feinstein, C. and Pollard, S. (eds.), Studies in Capital Formation in the United Kingdom, 1750–1920, Oxford: Clarendon Press, 73–104.Google Scholar

Dosi, G. (1982). ‘Technological Paradigms and Technological Trajectories: A Suggested Interpretation of the Determinants and Directions of Technical Change’, Research Policy, 11, 147–162.Google Scholar

Feinstein, C. (1988). ‘National Statistics, 1760–1920’ in Feinstein, C. H. and Pollard, S. (eds.), Studies in Capital Formation in the United Kingdom, 1750–1920, Oxford: Clarendon Press, 257–471.Google Scholar

Feinstein, C. (2003). ‘National Income Accounts: Investment and Savings’, in Mokyr, J. (ed.), The Oxford Encyclopedia of Economic History, Oxford University Press.Google Scholar

Fenichel, A. H. (1966). ‘Growth and Diffusion of Power in Manufacturing 1838–1919’, in Brady, D. (ed.), Output, Employment and Productivity in the United States after 1980, Chicago: National Bureau of Economic Research, 473–479.Google Scholar

Field, A. (1985). ‘On the Unimportance of Machinery’, Explorations in Economic History, 22, 378–401.Google Scholar

Field, A. (2011). A Great Leap Forward. 1930s Depression and US Economic Growth, New Haven: Yale University Press.Google Scholar

Fukao, K., Nakamura, N. and Nakabayashi, M. (eds.) (2017). Nihonkeizai no Rekishi (History of Japanese Economy), vol. 2, Tokyo: Iwanamishoten.Google Scholar

Gerschenkron, A. (1962). Economic Backwardness in Historical Perspective, Cambridge, MA: Harvard University Press.Google Scholar

Habakkuk, H. J. (1962). American and British Technology in the Nineteenth Century, Cambridge University Press.Google Scholar

Hansen, G. and Prescott, E. (2002). ‘Malthus to Solow’, American Economic Review, 92, 1205–1217.Google Scholar

Hicks, J. (1969). A Theory of Economic History, Oxford University Press.Google Scholar

Jovanovic, B. and Rousseau, P. (2005). ‘General Purpose Technologies’ in Aghion, P. and Durlauf, S. (eds.), Handbook of Economic Growth, vol. IB, Amsterdam: Elsevier, 1181–1224.Google Scholar

Kander, A., Malanima, P. and Warde, P. (2013). Power to the People. Energy in Europe over the Last Five Centuries, Princeton University Press.Google Scholar

Kanefsky, J. W. (1979). The Diffusion of Power Technology in British Industry, 1760–1870, unpublished Ph.D. thesis, University of Exeter.Google Scholar

Kelly, M. (1997). ‘The Dynamics of Smithian Growth’, Quarterly Journal of Economics, 112, 939–964.CrossRef Google Scholar

Khan, B. Z. and Sokoloff, K. L. (2001). ‘The Early Development of Intellectual Property Institutions in the United States’, Journal of Economic Perspectives, 15, 233–246.CrossRef Google Scholar

Landes, D. S. (1969). The Unbound Prometheus. Technological Change and Industrial Development in Western Europe from 1750 to the Present, Cambridge University Press.Google Scholar

Lipsey, R. G., Carlaw, K. I. and Bekar, C. (2005). Economic Transformations: General Purpose Technologies and Long-Term Economic Growth, Oxford University Press.Google Scholar

MacLeod, C. and Nuvolari, A. (2009). ‘“Glorious Times”: the Emergence of Mechanical Engineering in Early Industrial Britain, c.1700–1850’, Brussels Economic Review, 52, 215–237.Google Scholar

MacLeod, C. and Nuvolari, A. (2012). ‘Technological Change’ in Doyle, W. (ed.), The Oxford Handbook of the Ancien Regime, Oxford University Press, 448–466.CrossRef Google Scholar

MacLeod, C. and Nuvolari, A. (2016). ‘Inventive Activities, Patents and Early Industrialization: A Synthesis of Research Issues’, Rivista di Storia Economica, 32, 77–107.Google Scholar

Maddison, A. (1982). Phases of Capitalist Development, Oxford University Press.Google Scholar

Makkai, L. (1981). ‘Productivité et exploitation des sources d’energie (XII–XVII siècle’) in Mariotti, S. (ed.), Produttivita’ e Tecnologie nei Secoli XII–XVIII, Florence: Le Monnier.Google Scholar

Marx, K. (1990). Capital, vol. 1, Harmondsworth: Penguin.Google Scholar

Mokyr, J. (2002). The Gifts of Athena: Historical Origins of the Knowledge Economy, Princeton University Press.Google Scholar

Moser, P. (2005). ‘How Do Patent Laws Influence Innovation? Evidence from Nineteenth Century World Fairs’, American Economic Review, 95, 1213–1236.Google Scholar

North, D. C. (1981). Structure and Change in Economic History, New York: W. W. Norton.Google Scholar

Nuvolari, A. (2019). ‘Understanding Successive Industrial Revolutions: a “Development Block” Approach’, Environmental Innovation and Societal Transitions, 32, 33–44.Google Scholar

Ohkawa, K. et al. (1966). Chōkikeizaitōkei vol. 3 Shihon Sutokku (Estimates of Long Term Economic Statistics of Japan since 1868, vol. 3, Capital Stock), Tokyo: Tōyōkeizaishinpōsha.Google Scholar

Paulinyi, A. (1986). ‘Revolution and Technology’, in Porter, R. and Teich, M. (eds.), Revolution in History, Cambridge University Press, 261–289.CrossRef Google Scholar

Persson, K. G. (1988). Pre-Industrial Economic Growth. Social Organization and Technical Progress in Europe, Blackwell: Oxford.Google Scholar

Reynolds, T. S. (1983). Stronger than a Hundred Men: A History of the Vertical Water Wheel, Baltimore: Johns Hopkins University Press.Google Scholar

Rosenberg, N. (1963a). ‘Capital Goods, Technology and Economic Growth’, Oxford Economic Papers, 15, 217–227; reprinted in Rosenberg, N. (1976). Perspectives on Technology, Cambridge University Press.Google Scholar

Rosenberg, N. (1963b). ‘Technological Change in the Machine Tool Industry, 1840–1910’, Journal of Economic History, 23, 414–446; reprinted in Rosenberg, N. (1976). Perspectives on Technology, Cambridge University Press.Google Scholar

Rosenberg, N. (1974). ‘Karl Marx on the Economic Role of Science’, Journal of Political Economy, 82, 713–728.CrossRef Google Scholar

Rosenberg, N. (1976a). ‘Marx as a Student of Technology’, Monthly Review, 28, 56–77.Google Scholar

Rosenberg, N. (1976b). Perspectives on Technology, Cambridge University Press.CrossRef Google Scholar

Rostow, W. W. (1975). How It All Began: Origins of the Modern Economy, London: Methuen.Google Scholar

Samuel, R. (1977). ‘Workshop of the World: Steam Power and Hand Technology in mid-Victorian Britain’, History Workshop, 3, 5–72.CrossRef Google Scholar

Sharp, P., Strulik, H. and Weisdorf, J. (2012). ‘The Determinants of Income in a Malthusian Equilibrium’, Journal of Development Economics, 97, 112–117.Google Scholar

Soete, L., Verspagen, B. and ter Weel, B. (2010). ‘Systems of Innovation’ in Hall, B. and Rosenberg, N. (eds.), Handbook of the Economics of Innovation, vol. 2, Dordrecht: Elsevier, 1160–1180.Google Scholar

Tanimoto, M. (forthcoming). ‘Introduction and Diffusion: How Did Useful and Reliable Knowledge Feature in the Industrial Development in Early Modern Japan?’, Technology and Culture, 62.Google Scholar

van Neck, A. (1979). Les Debuts de la Machine a Vapeur dans l’Industrie Belge, 1800–1850, Bruxelles: Palais des Academies.Google Scholar

van Zanden, J. L. (2001). ‘Early Modern Economic Growth: A Survey of the European Economy, 1500–1800’, in Prak, M. (ed.), Early Modern Capitalism. Economic and Social Change in Europe, 1400–1800, London: Routledge, 69–87.Google Scholar

von Tunzelmann, G. N. (1978). Steam Power and British Industrialization to 1860, Oxford: Clarendon Press.Google Scholar

von Tunzelmann, G. N. (1995). Technology and Industrial Progress. The Foundations of Economic Growth, Aldershot: Edward Elgar.Google Scholar

Voigtlander, N. and Voth, J. (2009). ‘Malthusian Dynamism and the Rise of Europe: Make War, not Love’, American Economic Review, 99, 248–254.Google Scholar

Wrigley, E. A. (2004). Poverty, Progress and Population, Cambridge University Press.Google Scholar

Book contents

13 - Proximate Sources of Growth: Capital and Technology, 1700–1870

Summary

Keywords

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive