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''The Principles of Scientific Management''
1911
is a monograph published by
Frederick Winslow Taylor Frederick Winslow Taylor (March 20, 1856 – March 21, 1915) was an American mechanical engineer. He was widely known for his methods to improve industrial efficiency. He was one of the first management consultants. In 1909, Taylor summed up h ...
. This laid out Taylor's views on principles of scientific management, or industrial era organization and decision theory. Taylor was an American manufacturing manager, mechanical engineer, and then a management consultant in his later years. The term "scientific management" refers to coordinating the enterprise for everyone's benefit including increased wages for laborers although the approach is "directly antagonistic to the old idea that each workman can best regulate his own way of doing the work." His approach is also often referred to as Taylor's Principles, or Taylorism.


Contents

The monograph consisted of three sections: Introduction, Chapter 1: Fundamentals of Scientific Management, and Chapter 2: The Principles of Scientific Management.


Introduction

Taylor started this paper by quoting U.S. President Theodore Roosevelt: "The conservation of our national resources is only preliminary to the larger question of national efficiency". Taylor pointed out that while a large movement had started to conserve material resources, the less visible and less tangible effects of the wasted human effort were only vaguely appreciated. He argues the necessity of focusing on training rather than finding the "right man", stating "In the past, the man has been first; in the future, the system must be first", and the first goal of all good systems should be developing first-class men. He listed three goals for the work:
''First.'' To point out, through a series of simple illustrations, the great loss which the whole country is suffering through inefficiency in almost all of our daily acts.

''Second.'' To try to convince the reader that the remedy for this inefficiency lies in systematic management, rather than in searching for some unusual or extraordinary man.

''Third.'' To prove that the best management is true science, resting upon clearly defined laws, rules, and principles, as a foundation. And further to show that the fundamental principles of scientific management are applicable to all kinds of human activities, from our simplest individual acts to the work of our great corporations, which call for the most elaborate cooperation. And, briefly, through a series of illustrations, to convince the reader that whenever these principles are correctly applied, results must follow which are truly astounding.
Lastly, Taylor noted that while the examples were chosen to appeal to engineers and managers, his principles could be applied to the management of any social enterprise, such as homes, farms, small businesses, churches, philanthropic institutions, universities, and government.


Chapter 1 Fundamentals of scientific management

Taylor argued that the principle object of management should be to secure the maximum prosperity for the employer, coupled with the maximum prosperity for each employee. He argued that the most important object of both the employee and the management should be the training and development of each individual in the establishment, so that he can do the highest class of work for which his natural abilities fit him. Taylor demonstrated that maximum prosperity can exist only as the result of maximum productivity, both for the shop and individual, and rebuked the idea that the fundamental interests of employees and employers are necessarily antagonistic. Taylor described how workers deliberately work slowly, or “
soldier A soldier is a person who is a member of an army. A soldier can be a conscripted or volunteer enlisted person, a non-commissioned officer, or an officer. Etymology The word ''soldier'' derives from the Middle English word , from Old French ...
”, to protect their interests. According to Taylor, there were three reasons for the inefficiency:
''First.'' The fallacy, which has from time immemorial been almost universal among workmen, that a material increase in the output of each man or each machine in the trade would result in the end in throwing a large number of men out of work.

''Second.'' The defective systems of management which are in common use, and which make it necessary for each workman to soldier, or work slowly, in order that he may protect his own best interests.

''Third.'' The inefficient rule-of-thumb methods, which are still almost universal in all trades, and in practicing which our workmen waste a large part of their effort.
Taylor argued that the cheapening of any article in common use almost immediately results in a largely increased demand for that article, creating additional work and contradicting the first belief. As to the second cause, Taylor pointed to quotes from 'Shop Management' to help explain how current management styles caused workers to soldier. He explained the natural tendency of men to take it easy as distinct from "systematic soldiering" due to thought and reasoning, and how bringing men together at a standard rate of pay exacerbated this problem. He described how under standard day, piece, or contract work it was in the workers' interest to work slowly and hide how fast work can actually be done, and the antagonism between workers and management must change. For the third cause, Taylor noted the enormous saving of time and increase in output that could be obtained by eliminating unnecessary movements and substituting faster movements, which can only be realized after a motion and time study by a competent man. While there are perhaps "forty, fifty, or a hundred ways of doing each act in each trade", "there is always one method and one implement which is quicker and better than any of the rest".


Chapter 2: The Principles of Scientific Management

In this section, Taylor explained his principles of scientific management. He starts by describing what he considered the best system of management then in use, the system of "initiative and incentive". In this system, management gives incentives for better work, and workers give their best effort. The form of payment is practically the whole system, in contrast to scientific management. Taylor's scientific management consisted of four principles:e.g. FW Taylor, ''The Principles of Scientific Management'' (1911
ch 2, 36
/ref> Under the management of "initiative and incentive", the first three elements often exist in some form, but their importance is minor. However, under scientific management, they "form the very essence of the whole system". Taylor's summary of the fourth point is ''Under the management of "initiative and incentive" practically the whole problem is "up to the workman", while under scientific management fully one-half of the problem is "up to the management".'' It is up to the management to determine the best method to complete each task through a time and motion study, to train the worker in this method, and keep individual records for incentive based pay. Taylor devotes most of the remainder of the work to providing case studies to support his case, including: * Moving pig iron at the Bethlehem Steel Company, with the famous story of the " ox"-like worker " Schmidt". * Taylor's work at the
Midvale Steel Company Midvale Steel was a succession of steel-making corporations whose flagship plant was the Midvale Steel Works in Nicetown, Philadelphia, Pennsylvania. The mill operated from 1867 until 1976. In the 1880s, Frederick Winslow Taylor rose through the ...
* Shoveling at
Bethlehem Steel The Bethlehem Steel Corporation was an American steelmaking company headquartered in Bethlehem, Pennsylvania. For most of the 20th century, it was one of the world's largest steel producing and shipbuilding companies. At the height of its succ ...
* Bricklaying, as studied by
Frank B. Gilbreth Frank Bunker Gilbreth (July 7, 1868 – June 14, 1924) was an American engineer, consultant, and author known as an early advocate of scientific management and a pioneer of time and motion study, and is perhaps best known as the father and ce ...
* The inspection of small polished steel balls for bicycle bearing machine shop. Taylor warned about attempting to implement parts of scientific management without accepting the whole philosophy, stating that too fast of a change was often met with trouble, strikes, and failure.


See also

*
US labor law United States labor law sets the rights and duties for employees, labor unions, and employers in the United States. Labor law's basic aim is to remedy the "inequality of bargaining power" between employees and employers, especially employers "orga ...
* Louis Brandeis *
Frederick Winslow Taylor Frederick Winslow Taylor (March 20, 1856 – March 21, 1915) was an American mechanical engineer. He was widely known for his methods to improve industrial efficiency. He was one of the first management consultants. In 1909, Taylor summed up h ...
* Scientific management


Notes


References

*E McGaughey, 'Behavioural Economics and Labour Law' (2014
LSE Legal Studies Working Paper No. 20/2014
* * {{DEFAULTSORT:Principles of Scientific Management, The 1911 essays Management books 1911 non-fiction books