place to plaind different regions didn't just use varying measurements, they had completely different number systems as well. By the late Middle Ages, the Hindu Arcic decimal system mostly replaced Roman numerals and fractions in Europe. But efforts by scholars like John Wilkins to promote standard decimal based measures were less successful. With a quarter million different units in France alone, any widespread change would require massive disruption. And in 1789, that disruption co the leaders of the French Revolution didn't just overthrow the monarchy, they sought to completely transform society. According to the rational principles of the Enlightenment. When the new government took power, the Academy of Sciences convened to reform the system of measurements. Old standards based on arbitrary authority or local traditions were replaced with mathematical and natural relationships. For example, the meter from the Greek word for measure was defined as one 10,000,000 between the equator and North Pole, and the new metric system was in the words of the Marquis de Condor say, for all people for all time. Standardizing measurements had political advantages for the revolutionaries as well. Nobles could no longer manipulate local units to extract more rent from commoners. While the government could collect taxes more efficiently, and switching to a new Republican calendar with 10 day weeks reduced church power by eliminating Sunday's adoption of this new system wasn't easy. In fact, it was a bit of a mess. At first, people use new units alongside old ones, and the Republican calendar was eventually abandoned. When Napoleon Bonaparte took power, he allowed small businesses to use traditional measurements redefined in metric terms, but the metric system remained standard for formal use, and it's spread across the continent along with France's borders. While Napoleon's Empire lasted eight years, its legacy endured far longer, some European countries reverted to old measurements upon independence. Others realize the value of standardization in an age of international trade. After Portugal and the Netherlands switched to metric voluntarily, other nations followed, with colonial empires spreading the system around the world. As France's main rival, Britain had resisted, Britain had resisted revolutionary ideas and retained its traditional units. But over the next two centuries, the British Empire slowly transitioned, first approving the metric system as an optional alternative before gradually making it official. However, this which came too late for 13 former colonies that had already gained independence, the United States of America stuck with the English units of its colonial past, and today remains one of only three countries which haven't fully embraced the met system. Des constant initiatives for metrication. Many Americans consider units like feet and pounds more intuitive, and ironically, some regard the once revolutionary metric system as a symbol of global conformity. Nevertheless, the metric system is almost universally used in science and medicine, and it continues to evolve according to its original principles. For a long time, standard units were actually defined by carefully maintained physical prototypes. But thanks to improving technology and precision, these objects with limited access and unreliable longevity, are now being replaced with standards based on universal constants, like the speed of light. Consistent measurements are such an integral part of our daily lives that it's hard to appreciate what a major accomplishment for humanity they've been. And just as it arose from a political revolution, the metric system remains crucial for the scientific revolutions to come.
Using this passage what are the nouns, adjectives, and verbs in this passage? Make a summary of all 3 things. Next write 5 things that stood out and finally reflect on the passage.
Nouns: place, regions, measurements, number systems, Middle Ages, Hindu-Arabic decimal system, Roman numerals, fractions, Europe, scholars, John Wilkins, decimal-based measures, quarter million different units, France, widespread change, disruption, leaders, French Revolution, monarchy, society, principles, Enlightenment, government, Academy of Sciences, system of measurements, standards, arbitrary authority, local traditions, mathematical relationships, meter, Marquis de Condorcet, people, time, advantages, revolutionaries, nobles, rent, commoners, taxes, Republican calendar, church power, Sundays, Napoleon Bonaparte, small businesses, formal use, borders, Napoleon's Empire, legacy, European countries, independence, standardization, age of international trade, Portugal, the Netherlands, colonial empires, Britain, revolutionary ideas, traditional units, British Empire, colonies, United States of America, met system, constant initiatives, Americans, feet, pounds, symbol, global conformity, science, medicine, principles, physical prototypes, technology, precision, objects, limited access, unreliable longevity, standards, universal constants, speed of light, humanity, accomplishment, scientific revolutions.
Adjectives: varying, late, Hindu-Arabic, different, decimal, Roman, massive, French, old, local, new, mathematical, natural, Greek, republican, small, traditional, metric, former, colonial, English, revolutionary, global, almost universally, improving, integral, major, daily, scientific.
Verbs: use, replaced, promote, required, transformed, took, convened, replaced, defined, standardized, could, manipulate, collect, switching, abandoned, allowed, use, spread, resisted, endured, reverted, switched, followed, consider, regard, remains, embraced, initiate, appreciate, arise, remains.
Summary:
This passage discusses the historical context and development of the metric system. It highlights the varying measurements and number systems used in different regions, the efforts to promote decimal-based measures, and the role of the French Revolution in standardizing measurements. The advantages of standardization for the revolutionaries, the resistance faced, and the spread of the metric system across Europe and colonial empires are also mentioned. The passage emphasizes the hesitation and eventual adoption of the metric system by the British Empire and the resistance to its implementation in the United States. It concludes by highlighting the importance of consistent measurements for scientific progress and the shift towards universal constants.
Five things that stood out:
1. The significant impact of the French Revolution in promoting the metric system and standardizing measurements.
2. The political advantages and social implications of standardizing units of measurement.
3. The gradual adoption of the metric system by European countries and colonial empires, while the United States retained traditional units.
4. The symbolic significance and resistance associated with the metric system in relation to global conformity.
5. The continuous evolution of the metric system based on scientific principles and the use of universal constants for precision.
Reflection:
This passage provides an informative overview of the historical context, development, and significance of the metric system. It emphasizes the complex process of standardizing measurements and the political, social, and cultural factors that influenced its adoption or resistance in different regions. The text highlights the practical advantages of standardized units and the role of standardization in facilitating international trade. It also sheds light on the ongoing debate surrounding the metric system, particularly in the United States, where traditional units are still preferred by some. Overall, the passage underscores the importance of consistent measurements in various fields, like science and medicine, and their contribution to human progress and scientific advancements.