Labor productivity and the price of the good being produced are two variables that contribute to
ProductivityDownload the complete Explainer 154KBIn economics, productivity refers to how much output can be produced with a given set of inputs. Productivity increases when more output is produced with the same amount of inputs or when the same amount of output is produced with less inputs. Show
There are two widely used productivity concepts.
This Explainer outlines how productivity is measured, what drives productivity growth and how productivity growth contributes to the economic prosperity and welfare of all Australians.
How is productivity measured?In Australia, the Australian Bureau of Statistics (ABS) produces measures of output and inputs for different industries, sectors and the economy as a whole. Productivity is not measured directly but is calculated by dividing a measure of output by a measure of inputs. OutputOutput refers to a quantity of goods and services produced in a given time period. Output for an industry or sector is usually measured by gross value added (GVA), which is the total value of goods and services produced less those goods and services used in the production process (known as intermediate consumption). Output for the whole economy can be calculated by summing GVA across industries. Alternatively, adding the value of taxes to GVA and subtracting the value of subsidies on products gives gross domestic product (GDP) (see Explainer: Economic Growth). InputsLabour and capital are the two main types of inputs.
Box: Calculating Labour Productivity – An ExampleLabour productivity is defined as output produced per unit of labour input. Labour productivity = Output Labour input Suppose a person is employed for 40 hours a week in a toy factory. In a given week, the worker produces 120 dolls. The productivity of the worker in that week is 3 dolls per hour. Labour productivity = Output Hours worked = 120 dolls 40 hours = 3 dolls per hour Suppose the factory produces a range of toys, including dolls, miniature cars, card games and board games. In a given week, the gross value added of these goods is $5 million, using 125,000 hours of labour. Labour productivity for the toy factory in that week is $40 per hour. Labour productivity = Output Hours worked = $5 million 125,000 hours = $40 dolls per hour Box: Calculating Multifactor Productivity (MFP) – An ExampleMost businesses produce output using a combination of labour and capital inputs. MFP is calculated as a measure of output divided by a measure of combined inputs. Both the denominator and numerator are usually represented by indexes, which is a useful way of comparing changes in economic time series relative to a base period. The value of the index in the base period is usually set to equal 100. MFP index = Output index Combined input index x 100 Because of the use of indexes, MFP is usually analysed in terms of growth rates rather than levels. Suppose that a factory uses a combination of labour and capital to produce dolls, board games and other toys. Suppose that year 1 is the base year when an output index and a combined input index for the toy factory are both set equal to 100. In year 2, the output index increases to 107 while the combined input index increases to 105. The MFP index for the toy factory in year 1 is 100 and the MFP index in year 2 is 101.9.
The growth in MFP between year 1 and year 2 is 1.9 per cent. MFP Growth = MFP Year 2 - MFP Year 1 MFP Year 1 x 100 = ( 101.9 - 100 100 ) x 100 = 1.9%
MFP uses a measure of combined labour and capital inputs, where each input receives a weight reflecting its costs to Australian businesses. Measurement difficultiesThere are a number of challenges associated with measuring productivity. For example:
What drives productivity growth?In economics, the production possibility frontier (PPF) is used to show all possible combinations of goods and services that can be produced with a given amount of inputs and technology, when all inputs are used to their full capacity. The PPF can apply to any number of goods and services produced in the economy. However, it is usually illustrated in two dimensions for two goods and services and is useful for showing two ways in which businesses can increase productivity – by operating more efficiently or by expanding productive capacity. Productivity improvements can also have spillover effects for other firms. Efficiency improvementsA business is producing on its PPF if it is not possible to produce more of one good or service without producing less of another. Economists call this ‘technical efficiency’. If production is inside the PPF, moving closer to the PPF represents an increase in productivity, as more output can be produced with the same inputs. Suppose a business produces two goods, X and Y. All possible combinations of X and Y that achieve technical efficiency for some amount of inputs and technology is given by PPF1 in the diagram below. If the business is initially producing at point A, which is inside PPF1, then it is not technically efficient. If production moves from point A to point B, which is on PPF1, the business can achieve technical efficiency and higher productivity, as more output can be produced with the same inputs. One way to improve technical efficiency is through microeconomic reform. Australia's microeconomic policies – such as those related to competition, trade, tax and market regulation – have played an important role in supporting productivity growth over the past few decades by creating incentives for businesses to operate more efficiently.
Expanding productive capacityA business can also improve its productivity by expanding its potential production, represented by an outward shift in the PPF. In the diagram above, an expansion in potential production would allow the business to move from point B on PPF1 to point C on PPF2 and produce more of both types of goods. An expansion in potential production can occur as a result of innovation and advances in technology that allow a business to produce more output with the current level of inputs. Such technological progress is often embodied in capital inputs like faster computers or more powerful machines, but can also occur through improvements in knowledge that allow more output to be produced without investing in new capital. Productivity spilloversSpillover effects between businesses can further increase the overall level of productivity in the economy. For example, the sharing of knowledge between businesses can generate positive productivity spillovers. Knowledge sharing may occur through direct channels (such as industry innovation hubs) or indirect channels (such as workers changing jobs). Benefits of productivity growthProductivity growth is important for maintaining the economic welfare and prosperity of all Australians. Productivity growth can contribute to one or a combination of the following:
What two factors are the key to determining labor productivity?For any period of time, the level of labor productivity is determined by two broad factors: capital equipment and applied technical efficiency.
What are the factors that contribute to productivity growth?Growth in labor productivity depends on three main factors: saving and investment in physical capital, new technology, and human capital.. Labor productivity measures output per labor hour.. Labor productivity is largely driven by investment in capital, technological progress, and human capital development.. What factors explain labor productivity?Labour productivity is defined as output per worker or per hour worked. Factors that can affect labour productivity include workers' skills, technological change, management practices and changes in other inputs (such as capital). Multifactor productivity (MFP) is defined as output per unit of combined inputs.
What is labor productivity and how does it contribute to economic growth?With growth in labor productivity, an economy is able to produce increasingly more goods and services for the same amount of work. And, because of this additional production, it is possible for a greater quantity of goods and services to ultimately be consumed for a given amount of work.
|