The great scientist Archimedes belonged to Greece (option D). He was born in the city-state of Syracuse, which was located on the island of Sicily, in approximately 287 BC. Archimedes made profound contributions to mathematics, physics, engineering, and astronomy during the Hellenistic period in ancRead more
The great scientist Archimedes belonged to Greece (option D). He was born in the city-state of Syracuse, which was located on the island of Sicily, in approximately 287 BC. Archimedes made profound contributions to mathematics, physics, engineering, and astronomy during the Hellenistic period in ancient Greece. His work continues to be studied and revered across the world, and he is considered one of the greatest scientists and mathematicians of antiquity. Archimedes’ discoveries and inventions, such as the principle of buoyancy (Archimedes’ principle) and his development of mathematical concepts like calculus and the lever, have had a lasting impact on science and technology. His legacy endures through his many contributions to our understanding of the natural world and the foundations of modern science.
Any boat will sink if it displaces water equal to its weight (option B). This is according to Archimedes' principle, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. If the boat displaces water equal to its weighRead more
Any boat will sink if it displaces water equal to its weight (option B). This is according to Archimedes’ principle, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. If the boat displaces water equal to its weight, there will be no net upward force to counteract its weight, causing it to sink. Therefore, the critical factor determining whether a boat will sink is the amount of water it displaces compared to its weight. If the displaced water is less than its weight, the boat will sink; if it is greater, the boat will float. Surface area and density are not directly related to a boat’s sinking or floating ability.
The reason for a piece of iron not floating on the surface of water is that the weight of water displaced by iron is less than the weight of iron (option A). According to Archimedes' principle, for an object to float, the buoyant force (weight of water displaced) must equal or exceed the weight of tRead more
The reason for a piece of iron not floating on the surface of water is that the weight of water displaced by iron is less than the weight of iron (option A). According to Archimedes’ principle, for an object to float, the buoyant force (weight of water displaced) must equal or exceed the weight of the object. Since iron is denser than water, it displaces less water than its own weight, causing it to sink. This principle explains why objects with a density greater than that of water, like iron, sink when placed in water. Therefore, the weight of water displaced by the iron determines whether it will float or sink, and in this case, it is less than the weight of the iron, leading to its submersion.
The amount of buoyancy obtained by a solid partially or completely immersed in a liquid depends on the amount of liquid displaced by the solid (option A). This principle is known as Archimedes' principle. It states that the buoyant force acting on an object submerged in a fluid is equal to the weighRead more
The amount of buoyancy obtained by a solid partially or completely immersed in a liquid depends on the amount of liquid displaced by the solid (option A). This principle is known as Archimedes’ principle. It states that the buoyant force acting on an object submerged in a fluid is equal to the weight of the fluid displaced by the object. Therefore, the greater the volume of liquid displaced by the solid, the greater the buoyant force it experiences. The mass and weight of the solid do not directly influence the buoyancy; rather, it is the displacement of the fluid that determines the buoyant force exerted on the solid. Understanding this principle is crucial in various applications, including shipbuilding, submarine design, and the behavior of floating objects in fluids.
Scientists related to buoyancy are Archimedes (option A). Archimedes, an ancient Greek mathematician, physicist, and engineer, formulated the principle of buoyancy, known as Archimedes' principle. This principle explains the upward buoyant force exerted on an object immersed in a fluid, providing inRead more
Scientists related to buoyancy are Archimedes (option A). Archimedes, an ancient Greek mathematician, physicist, and engineer, formulated the principle of buoyancy, known as Archimedes’ principle. This principle explains the upward buoyant force exerted on an object immersed in a fluid, providing insights into the behavior of objects in fluids and buoyancy phenomena. Newton, while a renowned physicist, did not directly contribute to the understanding of buoyancy. Louis Pasteur, a famous French biologist and chemist, made significant contributions to microbiology and chemistry but was not specifically related to buoyancy studies. Therefore, the scientist most closely associated with buoyancy is Archimedes, whose principle remains fundamental in various fields, including fluid mechanics, naval architecture, and engineering.
To which country did the great scientist Archimedes belong?
The great scientist Archimedes belonged to Greece (option D). He was born in the city-state of Syracuse, which was located on the island of Sicily, in approximately 287 BC. Archimedes made profound contributions to mathematics, physics, engineering, and astronomy during the Hellenistic period in ancRead more
The great scientist Archimedes belonged to Greece (option D). He was born in the city-state of Syracuse, which was located on the island of Sicily, in approximately 287 BC. Archimedes made profound contributions to mathematics, physics, engineering, and astronomy during the Hellenistic period in ancient Greece. His work continues to be studied and revered across the world, and he is considered one of the greatest scientists and mathematicians of antiquity. Archimedes’ discoveries and inventions, such as the principle of buoyancy (Archimedes’ principle) and his development of mathematical concepts like calculus and the lever, have had a lasting impact on science and technology. His legacy endures through his many contributions to our understanding of the natural world and the foundations of modern science.
See lessAny boat will sink if it displaces water
Any boat will sink if it displaces water equal to its weight (option B). This is according to Archimedes' principle, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. If the boat displaces water equal to its weighRead more
Any boat will sink if it displaces water equal to its weight (option B). This is according to Archimedes’ principle, which states that the buoyant force acting on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. If the boat displaces water equal to its weight, there will be no net upward force to counteract its weight, causing it to sink. Therefore, the critical factor determining whether a boat will sink is the amount of water it displaces compared to its weight. If the displaced water is less than its weight, the boat will sink; if it is greater, the boat will float. Surface area and density are not directly related to a boat’s sinking or floating ability.
See lessThe reason for a piece of iron not floating on the surface of water is
The reason for a piece of iron not floating on the surface of water is that the weight of water displaced by iron is less than the weight of iron (option A). According to Archimedes' principle, for an object to float, the buoyant force (weight of water displaced) must equal or exceed the weight of tRead more
The reason for a piece of iron not floating on the surface of water is that the weight of water displaced by iron is less than the weight of iron (option A). According to Archimedes’ principle, for an object to float, the buoyant force (weight of water displaced) must equal or exceed the weight of the object. Since iron is denser than water, it displaces less water than its own weight, causing it to sink. This principle explains why objects with a density greater than that of water, like iron, sink when placed in water. Therefore, the weight of water displaced by the iron determines whether it will float or sink, and in this case, it is less than the weight of the iron, leading to its submersion.
See lessThe amount of buoyancy obtained by a solid partially or completely immersed in a liquid depends on
The amount of buoyancy obtained by a solid partially or completely immersed in a liquid depends on the amount of liquid displaced by the solid (option A). This principle is known as Archimedes' principle. It states that the buoyant force acting on an object submerged in a fluid is equal to the weighRead more
The amount of buoyancy obtained by a solid partially or completely immersed in a liquid depends on the amount of liquid displaced by the solid (option A). This principle is known as Archimedes’ principle. It states that the buoyant force acting on an object submerged in a fluid is equal to the weight of the fluid displaced by the object. Therefore, the greater the volume of liquid displaced by the solid, the greater the buoyant force it experiences. The mass and weight of the solid do not directly influence the buoyancy; rather, it is the displacement of the fluid that determines the buoyant force exerted on the solid. Understanding this principle is crucial in various applications, including shipbuilding, submarine design, and the behavior of floating objects in fluids.
See lessScientists related to buoyancy are
Scientists related to buoyancy are Archimedes (option A). Archimedes, an ancient Greek mathematician, physicist, and engineer, formulated the principle of buoyancy, known as Archimedes' principle. This principle explains the upward buoyant force exerted on an object immersed in a fluid, providing inRead more
Scientists related to buoyancy are Archimedes (option A). Archimedes, an ancient Greek mathematician, physicist, and engineer, formulated the principle of buoyancy, known as Archimedes’ principle. This principle explains the upward buoyant force exerted on an object immersed in a fluid, providing insights into the behavior of objects in fluids and buoyancy phenomena. Newton, while a renowned physicist, did not directly contribute to the understanding of buoyancy. Louis Pasteur, a famous French biologist and chemist, made significant contributions to microbiology and chemistry but was not specifically related to buoyancy studies. Therefore, the scientist most closely associated with buoyancy is Archimedes, whose principle remains fundamental in various fields, including fluid mechanics, naval architecture, and engineering.
See less