Engineering Expertise and the Canadian Exploitation of the Technology of the Second Industrial Revolution

  • Marvin McInnis
Chapter

Abstract

Canada was arguably the most successful exploiter of the new technology of the Second Industrial Revolution. The concatenation of more scientifically-based technological developments occurring late in the nineteenth century gave a great boost to economic performance throughout the European world. After a couple of decades of languishing economic growth, the pace of change was invigorated right at the end of the nineteenth century so that many countries entered the new century in a vibrant condition, developing more rapidly as the new technology boosted productivity in many areas of their economies. In the language of the New Growth Theory, here was a technological shock of great consequence. Mass production of cheap steel led the way, supplanting the older iron technology. Then there was the electrical revolution, providing not only a new form of prime mover to power manufacturing but an array of technically new, electrically-based processes, and an assortment of new consumer products as well. Scientific chemistry also came into play. Commodities came to be produced by chemical synthesis, and entirely new elemental combinations were found to have valuable uses. Finally came the internal combustion engine. It found application in the early twentieth century not only in powering automobiles but in agricultural machinery, marine uses, and stationary power sources as well.

Keywords

Total Factor Productivity Nova Scotia Industrial Revolution Gross National Product Engineering Expertise 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in to check access.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Ahlstrom, G. (1982), Engineers and Industrial Growth (London: Croom Helm).Google Scholar
  2. Biggar, E. B. (1920), Hydro-Electric Development in Ontario (Toronto: Biggar Press).Google Scholar
  3. Blank, D.M. and G. J. Stigler (1957), The Demand and Supply of Scientific Personnel (New York: National Bureau of Economic Research).Google Scholar
  4. Broadberry, S. N. (1997), The Productivity Race: British Manufacturing in International Perspective, 1850–1990 (New York: Cambridge University Press).CrossRefGoogle Scholar
  5. Canada, Department of Agriculture, 1901 Census of Canada (1910), ‘Occupations of the People’, 1901 Census Bulletin, Vol. XI (Ottawa: King’s Printer).Google Scholar
  6. Canada, Department of Trade and Commerce, 1911 Census of Canada (1915), ‘Occupations of the People’, Fifth Census of Canada, Vol. VI (Ottawa: King’s Printer).Google Scholar
  7. Creet, M. (1992), ‘Science and Engineering at McGill and Queen’s Universities and at the University of Toronto, 1880s to 1920s’ (Kingston, Ontario: unpublished Queen’s University PhD thesis).Google Scholar
  8. Dales, J. (1957), Hydroelectricity and Industrial Development in Quebec, 1898–1940 (Cambridge, MA: Harvard University Press).CrossRefGoogle Scholar
  9. Donald, W. J. A. (1915), The Canadian Iron and Steel Industry (Boston, MA: Houghton Mifflin).Google Scholar
  10. Easterbrook, W. T. and H. G. J. Aitken (1965), Canadian Economic History (Toronto: Macmillan), 2nd edn.Google Scholar
  11. Edelstein, M. (1988), ‘Professional Engineers in Australia: Institutional Response in a Developing Economy, 1860–1980’, Australian Economic History Review, 28, pp. 8–32.Google Scholar
  12. Edelstein, M. (2001), ‘The Production of Engineers in New York Colleges and Universities, 1800–1950’, paper presented to the Rochester Conference in honour of Stanley Engerman, 8–10 June 2001.Google Scholar
  13. Fowke, V. C. (1957), The National Policy and the Wheat Economy (Toronto: University of Toronto Press).Google Scholar
  14. Halpenny, F. G. and J. Hamelin (general eds), Dictionary of Canadian Biography (Toronto: University of Toronto Press, various dates).Google Scholar
  15. Harris, R. S. (1976), A History of Higher Education in Canada, 1663–1960 (Toronto: University of Toronto Press).Google Scholar
  16. Keay, I. (2000), ‘Canadian Manufacturers’ Relative Productivity Performance, 1907–1990’, Canadian Journal of Economics, 33, pp. 1,049–68.Google Scholar
  17. Kendrick, J. W. (1961), Productivity in the United States (New York: National Bureau of Economic Research).Google Scholar
  18. Kilboum, W. (1960), The Elements Combined: A History of the Steel Company of Canada (Toronto: Clark, Irwin & Co.)Google Scholar
  19. Maddison, A. (1995), Monitoring the World Economy, 1820–1992 (Paris: OECD).Google Scholar
  20. Mann, C. (1918), A Study of Engineering Education (New York: National Engineering Societies).Google Scholar
  21. McDowall, D. (1984), Steel at the Sault: Sir James Dunn and the Algoma Steel Corporation 1961–1956 (Toronto: Toronto University Press)Google Scholar
  22. McHugh, J. (1980), Alexander Holley and the Makers of Steel (Baltimore, MA: Johns Hopkins University Press).Google Scholar
  23. McInnis, M. (1994) ‘Immigration and Emigration: Canada in the Late Nineteenth Century’, Ch. 7 of T. J. Hatton and J. G. Williamson (eds), Migration and the International Labor Market, 1850–1939 (London: Routledge).Google Scholar
  24. McInnis, M. (1999), ‘Canadian Economic Development in the Wheat Boom Era: A Reassessment’, unpublished paper presented to the annual meeting of the Canadian Economics Association, Toronto, May 1999.Google Scholar
  25. Mitchell, B. (1998), International Historical Statistics: Europe, 4th edn (London: Macmillan).CrossRefGoogle Scholar
  26. Nelles, H. V. (1974), The Politics of Development: Forests, Mines and Hydroelectric Power in Ontario, 1849–1941 (Toronto: Macmillan of Canada).Google Scholar
  27. Prados de la Escosura, L. (2000), ‘International Comparisons of Real Product, 1820–1990: An Alternative Data Set’, Explorations in Economic History, 37, pp. 1–41.Google Scholar
  28. Rosenberg, N. (1998), ‘Chemical Engineering as a General Purpose Technology’, in E. Helpman (ed.), General Purpose Technologies and Economic Growth (Cambridge, MA: MIT Press), ch. 7.Google Scholar
  29. Urquhart, M. C. (1986), ‘New Estimates of Gross National Product, Canada, 1870–1926: Some implications for Canadian Development’, in S. L. Engerman and R. E. Gallman (eds), Long-Tenn Factors in American Economic Growth, Studies in Income and Wealth, Vol. 51 (Chicago: University of Chicago Press).Google Scholar
  30. Urquhart, M. C. (1993), Gross National Product, Canada, 1870–1926: The Derivation of the Estimates (Kingston and Montreal: McGill-Queen’s University Press).Google Scholar
  31. Whos Who in Engineering (1925), 2nd edn (New York: Who’s Who Press).Google Scholar
  32. Wylie, P. (1989), ‘Technological Adaptation in Canadian Manufacturing, 1900–29’, Journal of Economic History, 49, pp. 569–91.Google Scholar
  33. Young, C. R. (1958), Early Engineering Education at Toronto, 1851–1919 (Toronto: University of Toronto Press).Google Scholar

Copyright information

© Marvin McInnis 2005

Authors and Affiliations

  • Marvin McInnis

There are no affiliations available

Personalised recommendations