Introduction
The Greeks have had a lasting influence on architecture. It has inspired architects throughout the centuries, including contemporary ones. The main features of Greek architecture include orders, columns, marble, and decorations. The Greeks designed their buildings with harmony and symmetry in mind, and these principles were so successful that they are still used worldwide (Tolqin, 2021). Some of the most famous buildings in the world, such as the Great Theatre of Epidaurus, the Acropolis in Athens, and the Temple of Zeus in Olympia, were built in the Greek style and are icons of world culture.
Notable Modern Structures Influenced by Ancient Greek Architecture
The Parthenon in Nashville
One of the most iconic examples of Greek architecture in the United States is the Parthenon in Nashville, Tennessee. The Parthenon is a remarkable example of Greek architecture in the United States, attracting thousands of tourists worldwide. This temple stands out for its unique beauty and elegance, mainly thanks to the beautiful colonnade which surrounds it. It consists of 46 columns, each over 14 meters tall and weighing over 50 tons.
The columns of the Parthenon are executed in the classic Doric style and are one of the most beautiful parts of the building. They encircle the building from all sides, creating a beautiful harmony with its architectural details. The Parthenon is also famous for its marble decorations and frescoes, which adorn its interior space. It was built in the classic Doric order style, characteristic of Greek architecture (Tolqin, 2021). It is one of the most famous buildings in the United States and is a shining example of beautiful and harmonious design.
The Library of Congress in Washington
The second example is the Library of Congress in Washington. It is one of the largest and most important buildings in the United States. The Library of Congress has brightly expressed features of the Greek style, making it beautiful. In addition, in the Library of Congress, you can see luxurious domes and porticoes with images of heroes of Ancient Greece, which complement its architectural beauty.
The Livermore National Laboratory in California
The third example is the building of the Livermore National Laboratory in California. The building of the Livermore National Laboratory is a beautiful example of how Greek architecture was adapted to modern needs and construction conditions. It is gorgeous and functional – it was specially designed for scientific research, and its internal architecture was designed considering scientific requirements.
One of the most impressive elements of the Livermore National Laboratory building is its columns. They are executed in the Doric style, with sandstone capitals and bases complementing the building’s white walls (Tolqin, 2021). However, unlike traditional Greek columns, the columns of the Livermore National Laboratory have smoother and more minimalist shapes, reflecting a modern view of architecture. The Livermore National Laboratory was built in the Doric order style, which is characteristic of Greek architecture. This building has many distinct details, such as beautiful columns, marble decorations, and a unique facade.
Conclusion
In conclusion, Greek architecture has been and remains an essential influence on architecture worldwide. It represents a combination of simplicity and beauty, which allows people to preserve and maintain these buildings for many years. Greek architecture continues to bring genuine pleasure and admiration to all those who enjoy its masterpieces.
The Parthenon, the Library of Congress, and the Livermore National Laboratory heavily incorporate Greek architectural features such as Doric orders, columns, marble, and ornamentation. These buildings are iconic examples of beautiful, harmonious design that still impresses with their beauty and elegance. Ultimately, Greek architecture continues to be inspiring and significant to architects worldwide.
Reference
Tolqin, A. (2021). Ancient Greek and Ancient Rome architecture and urban planning. The American Journal of Engineering and Technology, 3(6), 82-87.