Intermediate goods, producer goods or semi-finished products are goods, such as partly finished goods, used as inputs in the production of other goods including final goods. A firm may make and then use intermediate goods, or make and then sell, or buy then use them. In the production process, intermediate goods either become part of the final product, or are changed beyond recognition in the process. This means intermediate goods are resold among industries.
Intermediate goods are not counted in a country's GDP, as that would mean double counting, as the final product only should be counted, and the value of the intermediate good is included in the value of the final good.
The value-added method can be used to calculate the amount of intermediate goods incorporated into GDP. This approach counts every phase of processing included in production of final goods.
Intermediate goods generally can be made and used in three different ways. First, a company can make and use its own intermediate goods. Second, a company can manufacture intermediate goods and sell them to others. Third, a company can buy intermediate goods to produce either secondary intermediate goods or final goods.
- Sugar – sugar is used as a final good (when it is sold as sugar in the supermarket) or as an input (when it is used as an ingredient in other food products)
- Steel – a raw material used in the production of many other goods, such as bicycles.
- Car engines - Some firms make and use their own, others buy them from other producers as an intermediate good, then use them in their own car.
- Paint, plywood, pipe and tube, and ancillary parts.
- wood - wood is used in multiple purposes for construction of building or production of furniture
- glass - glass can be used to make dishes, cups, bottles or windows
- salt - salt is used in almost all food production
- silver and gold - silver and gold can be used for production of jewelry or kitchen utensils and even for food decoration or interior design
- An interesting example is the use of chlorine in the production of polyurethane, which contains no chlorine. Rock salt is electrolyzed to produce chlorine, which is reacted with carbon monoxide to give phosgene. Phosgene, a chlorine compound, and a diamine are then reacted to produce a diisocyanate and hydrochloric acid that is neutralized in situ. The chlorine is removed as chloride salt waste. The diisocyanate reacts with a diol to produce polyurethane, which contains no chlorine. Chlorine is used because chlorine is electronegative enough to produce an isocyanate, but does not become a part of the product; it lowers the atom economy.
- O'Sullivan, Arthur; Sheffrin, Steven M. (2003). Economics: Principles in Action. Upper Saddle River, New Jersey 07458: Pearson Prentice Hall. p. 301. ISBN 0-13-063085-3.CS1 maint: location (link)
- C. Colburn Hardy (1 January 1978). The Investor's Guide to Technical Analysis. Tata McGraw-Hill Education. pp. 439–. ISBN 978-0-07-026365-9. Retrieved 14 August 2017.
- Irvin Tucker (25 February 2008). Survey of Economics. Cengage Learning. pp. 219–. ISBN 0-324-57961-6. Retrieved 14 August 2017.
- Chandana Ghosh (2011). Macroeconomics. PHI Learning Pvt. Ltd. pp. 27–. ISBN 978-81-203-4306-1. Retrieved 14 August 2017.
- Minoru Sawai (27 May 2016). Economic Activities Under the Japanese Colonial Empire. Springer. pp. 35–. ISBN 978-4-431-55927-6. Retrieved 14 August 2017.
- John Cunningham Wood; Michael McLure (2005). Paul A. Samuelson. Taylor & Francis. pp. 351–. ISBN 978-0-415-31063-5. Retrieved 14 August 2017.
- FCS Economic Environment L3. Pearson South Africa. 2008. pp. 26–. ISBN 978-1-77025-087-1. Retrieved 14 August 2017.
- Feliciano R. Fajardo (1995). economics third edition. Rex Bookstore, Inc. pp. 148–. ISBN 978-971-23-1794-1. Retrieved 14 August 2017.
|This economic term article is a stub. You can help Wikipedia by expanding it.|