Intuitive and quick math is how man came up with the metric system. Even though the metric system is more convenient for international travel, it has a significant problem when dealing with fractional measurements. American opposition to the metric system stems solely from the fact that fractions cannot be measured. Surprisingly, it aids in obtaining precise numbers by minimizing the room for error. The International System of Units (SI) is a component of most modern metric systems since it allows for a more straightforward measurement of quantities. To maintain sustainability, the United States should work toward adopting the existing metric system. Since the beginning of the Industrial Revolution, when modern machinery was first developed, the United States has used the SI (Hicks et al., 2019). Research indicates that the country might benefit from switching to the metric system. Because of its superiority, widespread acceptance, and precise solutions, the United States should switch to the metric system.
Because of its superior results, the metric system has gained widespread acceptance worldwide. Research using the metric learning technique has determined a highly successful method of learning that bridges the gap between Euclidean and hyperbolic geometry (Vinh Tran et al., 2019). The metric system is a universally adopted method of measurement for weights and measures that allows for precise calculations by anybody, anywhere. Each metric unit indicates its value and fits in with all the others.
The United States is making strides toward metrication because it will improve its industrial and commercial output, math and science education quality, and the ability to compete successfully in global markets. Because international trade is essential to the United States economy, the country’s manufacturing sector must embrace the international standard for measurement (Hughes & Oberdorff, 2020). Back-of-the-envelope computations are greatly simplified by using the metric system. Whether working with a lab apparatus to create a solution, figuring out the square footage of a parking lot, or determining the correct dosage for a patient of a specific weight, calculations are required. Also, it shortens the time it takes to verify a computation that a computer has just vomited out. Because of these advantages, numerous sectors in the United States have chosen to adopt the metric system independently, including the scientific community, the medical community, the energy sector, and the automobile industry.
A good example is Ford Motor Company, which produced the first US-made production engine to fully employ metric technical standards and achieve interoperability with other parts. Because of this, the metric system was implemented to standardize and reduce the complexity of product requirements. In addition, line workers with intermediate skills only need the training to transition to metric working.
As a result, the metric system facilitates uniformity in communication between students and teachers across countries. Any materials used to create textbooks can be created using the metric system. Students in fields of study such as engineering, chemistry, medicine, and computer science can all benefit from a unified measurement system. Drive capacities, memory sizes, and processing speeds in computers are all specified in SI units. Students from the United States studying in countries that use the metric system will be exemplary with grocery shopping, estimating garment sizes, or navigating public transportation (Carvalho et al., 2019). The Celsius temperature measurement system has a more straightforward 0 to 100 scale than the Fahrenheit system used in the United States. Contrarily, the metric system was developed with the goals of simplicity and ease of use from the start. Calculations in the metric system are more superficial and quicker than those in the alternative system because of the decimal character of the metric system. Converting between different weights and measurements is simple. Because fractional notation is not used, mental computation is relatively straightforward. It has also made it easier to be precise, so it is effective now. It is as simple as multiplying or dividing by ten.
Metric also makes it easier to convert between different unit systems. On the other hand, customers stand to gain from the changes. This is because widespread use of the metric system in business should lead to more straightforward and uniform product packaging. It is more convenient to compare prices and save money on packaging and shipping if there is a smaller range of package sizes. They are ultimately benefiting consumers with cost savings. Metric measurements simplify calculations and make it simpler to make price and weight comparisons. Adopting the metric system has improved productivity in business and industry and simplified the teaching and learning measurement process. The same is true of American exports: they do very well in other countries (Brown, 2020). So, the economy and the people of the United States stand to benefit from the metric conversion.
To facilitate communication and cooperation with its allies, the United States military relies heavily on metric units of measurement, especially those outlined in NATO Standardization Agreements (STANAG). Kliff’s, a slang term for kilometres, has been used by ground armies to measure distances. Starting with the M-14, most military-issued guns are specified in metric (Goodhart & Taylor, 2020). Vehicles used by the military are often constructed using the metric system. Coverage of major athletic events, such as the Olympic Games and the FIFA World Cup, provides a frequent opportunity for American sports fans to be exposed to metric units. As a preparation for the Olympic Games, the track and field Olympic Trials have always been run in metric distances; the National Championships followed suit in 1974.
Those who refuse to adopt the metric system or use non-metric units are at a competitive disadvantage in the international marketplace. Compared to other measurement systems, the metric system is the most straightforward. The metric system’s clarity prevents misunderstandings due to its inherent simplicity. Since it is the standard system used worldwide, there is no debate about it or its interpretation. There is a general feeling of likeness and consistency.
Carvalho, D. V., Pereira, E. M., & Cardoso, J. S. (2019). Machine learning Interpretability: A survey on methods and metrics. Electronics, 8(8), 832. https://doi.org/10.3390/electronics8080832
Goodhart, A., & Taylor, J. K. (2020). LGBT military service policies in the United States. Oxford Research Encyclopedia of Politics. https://doi.org/10.1093/acrefore/9780190228637.013.1289
Hicks, M. B., Farrell, W., Aurigemma, C., Lehmann, L., Weisel, L., Nadeau, K., & Ferguson, P.(2019).Making a move towards modernized greener separations: introducing the analytical method greenness score (AMGS) calculator. Green chemistry, 21(7), 1816-1826. https://doi.org/10.1039/C8GC03875A
Hughes, R. M., & Oberdorff, T. (2020). Applications of IBI concepts and metrics to waters outside the United States and Canada., 79-93. https://doi.org/10.1201/9781003068013-6
Vinh Tran, L., Tay, Y., Zhang, S., Cong, G., & Li, X. (2020, January). Hyperml: A boosting metric learning approach in hyperbolic space for recommender systems. In Proceedings of the 13th international conference on web search and data mining (pp. 609–617). https://doi.org/10.1145/3336191.3371850