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The history of Roman architecture
The history of Roman architecture
Ancient roman inspired modern architecture
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From the reading, discuss the development of both concrete and the arch. Include the importance of each in the life of Rome and the results of their use. This class has examined the various accomplishments of ancient Rome, many that have been carried on throughout time and influenced numerous cultures around the world. Amongst those accomplishments were the development of concrete and the utilization of arches. This paper will examine the Roman development of both concrete and the infamous concrete arch that is utilized in many modern day structures today. Opus caementicium or Roman concrete is a synthetic construction substance that’s composed of an aggregate, a binding agent, and water. In Rome’s case, as discovered by UC Berkley with the extensive analysis of a sample of Roman concrete taken from a breakwater in Italy’s Pozzuoli Bay it was developed by using lime and volcanic rock which formed a mortar, the mortar and volcanic rock were then packed into wooden forms and when seawater was added a chemical reaction occurred, bonding everything together to create concrete (History, 2013). It is uncertain when Roman concrete was developed, but it was clearly in widespread and customary use from about 150 BC; some scholars believe it was developed a century before that. Although it is uncertain when opus caementicium was developed, many scholars believe it was developed a century prior to 150 BC (Boëthius, Ling, & Rasmussen, 1978). Opus caementicium was an important development and seen very advantageous in the Roman culture, as it was remarkably sturdy and could extent vast distances when it was shaped into arches. Not only could concrete take the form of arches, however it could be formed into any shape when it was poured into a... ... middle of paper ... ...dings with absolutely no geometric shape. However, the development of arches that later took on a concrete form make the world a much more beautiful place and makes the buildings much safer to live in. I will add that the world could benefit from turning back the clock and learning the ways of the Romans when it pertains to the materials used to make concrete, according to an analysis done by UC Berkley of the Roman concrete, the materials and the process of making Roman concrete is much more sustainable and environmental friendly. (History, 2013). References Boëthius, A., Ling, R., & Rasmussen, T. (1978). Etruscan and early Roman architecture. New Haven: Yale University Press. History. (2013). The secrets of ancient Roman Concrete - history in the headlines. Retrieved October 20, 2016, from history, http://www.history.com/news/the-secrets-of-ancient-roman-concrete
University, C. (2014). HSC Online - Fall. [online] Hsc.csu.edu.au. Available at: http://hsc.csu.edu.au/ancient_history/historical_periods/rome/2536/Rome78_28BC.html [Accessed 3 May. 2014].
Thousands of years ago, Greek and Roman architects created rectangular-shaped buildings supported by huge, marble columns. For example, the Parthenon has forty six outer columns and twenty three inner columns. All of these columns come at a price. There is less space in the building and the views through the building are obstructed by the columns. It was not until about 100 A.D that that the Romans did a little experiment with a new concept, arches. These Roman scientists discovered that when you put them together, they form a circular dome. This concept caught on quickly as many ancient architects began to build “domes”. They found that making a dome created more space because there were no columns involved. Without the columns, the arches provided unobstructed space that is more appealing to those u...
In Rome the buildings were constructed under Roman Empire. The Roman Colosseum was constructed between 69 to 79 CE by the Vespasian emperor, The Circus Maximum was built in the 2nd century B.C by the high emperor, in 31 B.C the fire destroyed it that led Emperor Augustus to rebuild the Circus in 82 AD, Ludus Magnus was a gladiatorial training school in Rome and it was originally built between 81-96AD by Emperor Domitian. The emperor’s theme was large public stone buildings that would bring the people of Rome together and also the emperor was rich and they had manpower. The emperors also patron towards the workers and also to prove that they are the great leaders. The emperors had money, a lot of workers to build the buildings to the Emperor’s satisfaction. The buildings were used by the public as entertainment where they would go and watch all sorts of races & fights.
Rome had many architectural buildings that we know of today. Many Roman building ways were copied right from how the greek people use to do theirs. Though they copied Greek style, they came up with their own style. They used many arches, some arches were used to show the wealth of a person, the fancier, the wealthier. Roman people made aqueducts. Aqueducts were able to bring the city of Rome, running water. One of the most famous aqueducts would be the Pont Du Gard, it ran for thirty miles and supplies twenty thousand gallons of water to th...
The Roman Pantheon built by the Romans using advanced engineering skills combined a cylindrical structure with an outer colonnade Greek classical design to make an architectural monument. The amount of time and effort that went into the building of this structure shows a cultural emphasis on quality workmanship and perfectionism. This workmanship and perfectionism showed the importance given to the worship and honoring of the Gods. This pantheon is the only active place of worship amongst Rome’s ancient temples still in existence. Modern commentators tend to view the building as a high point in an "architectural revolution" brought about mainly through the Roman development of a superior pozzolana concrete that lent itself to the forming of unitary, three-dimensional structures. Other factors cited for the technical success of the Pantheon include the use of a series of massive, concentric stepped rings and the lightening of the dome by coffering and gradated light-weight aggregates. ( Mark, Robert, and Paul Hutchinson, 1986) The concrete dome was one of the world’s largest unreinforced concrete builds for over a millennium until the modern era. The success of the Pantheon longevity was largely attributed to acquired new techniques of construction and materials that shaped the development of Roman construction technology. This allowed for the use
The engineering discoveries of ancient Rome have played a key role in the history of architecture and engineering. Many of Rome’s roadways, bridges, and aqueducts have been in use from the first century until the twentieth century. Many American buildings have used the Roman dome. Several major structures from early Rome still stand, including the Collosseum. These remnants of feats of Roman engineering stand as a monument to the ability of ancient Roman builders.
Wilson, R.J.A. “Roman Art and Architecture.” Oxford Illustrated History. Oxford U. Press, 1988. pp. 361-399
As one of the greatest structures in Rome, the Pantheon was built between 118 and 128 CE. It is described as the most remarkable ancient building surviving in Rome. After being destroyed and rebuilt twice, it was renamed the “Temple of the Gods”. In 126 AD, the Pantheon was restored to its glory, by the architects who at that time has learned and mastered their craft in concrete construction in the Greek Classical order. They constructed a massive 25 foot thick walls which was to support the huge dome made of concrete to be placed at the top. The dome was the largest ever made of unreinforced concrete at 43.4 meters in diameter (Matthews, Roy and Platt pg. 5).
If the ancient Roman innovation of concrete, were to not have been significant, it would not have continued to be used across the globe. In fact, ancient Roman hydraulic cement-based concrete was so notable that modern day scientists are trying to, “replicate the exact formula for which ancient Roman concrete was made.” This is due to ancient Roman concrete being so sturdy and strong that aspects of it have lasted over 2000 years without deterioration. Without the innovation of Roman concrete, many of the modern world’s infrastructure would not be stable, causing havoc across the globe. Also, advancements in construction, health, and even safety areas would not be possible, as almost every piece of infrastructure, from sewerage and water pipes, to building and security walls, would not be able to remain as safe to use. This is because the modern world relies so heavily on concrete, with around five billion tonnes of concrete being used around the world each year,becoming the single most widely used material in the construction industry. In fact, around 76% of all first-world infrastructure is reinforced with concrete. Without this substance, much of the modern-world's infrastructure would not be as tall or sturdy as what it currently is, as it would simply deteriorate or break. Hydraulic cement-based concrete is certainly the most significant Roman
The Romans also excelled in the highly practical art, architecture. The Romans were the first people in antiquity to use concrete on a massive scale. By using concrete in their new architectural designs, the Romans were able to construct huge buildings, bigger than the Greeks ever could have dreamed of.
Yegul, Fikret . "ROMAN CONCRETE." Roman Building Technology and Architecture. University of California, n.d. Web. 23 Nov. 2014.
“Many European cities still bear reminders of the power of ancient Rome, and throughout the western world the influence of Roman power is still manifest.” “As the Roman Empire expanded Roman architects struggled to achieve two overriding aims: to demonstrate the grandeur and power of Rome, while also improving the life of their fellow citizens.” They held the Greeks in high regard for both their sculpture and architecture, learned stonework and pyramid architecture from the Egyptians, and absorbed important techniques from the Etruscans. To that end, the Romans perfected three architectural elements: concrete, the arch, and the vault. These three elements helped lighten the load carried by Roman structures while maintaining overall durability.
This research paper is a study of Roman Engineering and Greek Science. This paper answers questions about Roman Engineering and Greek Science. My sources for this paper are books on the Roman Engineering and books on the Greek Science from the Harper College Library, the Arlington Heights Library and the Schaumburg Library. These sources are listed on the Works Cited page. Photocopies of the title pages of these books are included as attachments to this paper.
Concrete is a composite material used widely in the construction industry. Concrete is basically a mixture of cement, water, aggregates and admixture (sometimes). Cement is a fine gray powder that consists of oxidizes calcium, silicon and aluminum. The aggregate used is normally gravel, crushed stone or sand. Admixture is a solid or liquid substance that gives a certain characteristics of the concrete. The cement reacts with water chemically and binds the aggregates together through a process called hydration during hardening or curing of concrete. It means that water helps in the hardening of the concrete while the cement bind the aggregate and also react with water to form a solid mass.
Behind every architectural work there is an architect, whether the architect is one man or woman, a small group, or an entire people. The structure created by any of these architects conveys a message about the architect: their culture, their identity, their struggles. Because of the human element architects offer to their work not just a building is made, but a work of art, a symbol of a people, a representation, is also created.