What did archimedes determine after discovering archimedes principle?
Answers
Legend says that Archimedes discovered the principle of displacement while stepping into a full bath. He realized that the water that ran over equaled in volume the submerged part of his body. Through further experiments, he deduced the above mentioned Archimedes' principle.
The legends goes further and tells that Archimedes was so excited with his discovery that he hopped out of the bath, and rushed naked into the street yelling triumphantly, "Eureka!" "Eureka!" (Greek word for 'I have found it!).
Another legend describes how Archimedes uncovered a fraud against King Hieron II of Syracuse using his principle of buoyancy. The king suspected that a solid gold crown he ordered was partly made of silver. Archimedes took two pieces of pure gold and of pure silver that had weights identical to the weight of the crown. He then successively immerses the gold, the silver, and the crown in a container filled to the brim with water and measured the volume of water that overflowed with each material. He found that the crown displaced more water than the gold but less than the silver, thereby proving that the crown contained some other metal which was less dense than gold.
- After discovering Archimedes' principle, Archimedes determined that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by that object. This principle is now known as Archimedes' principle, and it is one of the fundamental principles of physics that explains why objects float or sink in fluids.
- Archimedes made this discovery while he was studying the problem of how to determine whether a crown was made of pure gold or if it was mixed with other metals. He realized that he could determine the crown's volume by measuring the amount of water it displaced when submerged in water. Using this information, he could calculate the crown's density and determine if it was made of pure gold or not.
- Archimedes' principle has many applications in everyday life, from the design of ships and submarines to the functioning of hydraulic systems. It is a fundamental principle in the study of fluid mechanics and is widely used in many areas of science and engineering.
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