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Which force in fluids described by Archimedes principle allow objects to float?
buoyancy
Which force in fluids allows objects to float?
Buoyant force is the force in fluids that allows objects to float. It is the upward force exerted by a fluid on an object immersed in it, counteracting the force of gravity pulling the object downward.
Why can solids support objects better than fluids?
Solids have a stable and rigid structure due to their arrangement of particles, which allows them to support objects more effectively. In contrast, fluids have weak intermolecular forces and constantly change their shape, making them less capable of providing stable support for objects.
What are the key differences between Eulerian and Lagrangian fluids in fluid dynamics?
In fluid dynamics, Eulerian fluids are described based on fixed points in space, while Lagrangian fluids are described based on moving particles. Eulerian fluids focus on properties at specific locations, while Lagrangian fluids track individual particles as they move through the fluid.
What fluids move through objects?
Fluids such as air, water, and oil can move through objects, depending on the permeability and composition of the objects. These fluids can flow through materials like porous rocks, membranes, and pipes, allowing for the transfer of gases and liquids. The movement of fluids through objects can be influenced by factors such as pressure differentials, temperature gradients, and the physical properties of the fluid and object.
Which force in fluids described by Archimedes's principle allows objects to float?
buoyancy
Which force in fluids described by Archimedes principle allow objects to float?
buoyancy
What force in fluids allows objects to float?
Buoyancy
Which force in fluids allows objects to float?
Buoyant force is the force in fluids that allows objects to float. It is the upward force exerted by a fluid on an object immersed in it, counteracting the force of gravity pulling the object downward.
Why can solids support objects better than fluids?
Solids have a stable and rigid structure due to their arrangement of particles, which allows them to support objects more effectively. In contrast, fluids have weak intermolecular forces and constantly change their shape, making them less capable of providing stable support for objects.
What are the key differences between Eulerian and Lagrangian fluids in fluid dynamics?
In fluid dynamics, Eulerian fluids are described based on fixed points in space, while Lagrangian fluids are described based on moving particles. Eulerian fluids focus on properties at specific locations, while Lagrangian fluids track individual particles as they move through the fluid.
When objects are layered do objects of higher or lower density sink to the bottom?
The fluids with highest densities form the lowest layers. The fluids with lowest densities form the highest layers.
Why objects moving in fluids must have special shapes?
When objects move through fluids, they have to overcome friction acting on them. In this process they lose energy. Efforts are, therefore, made to minimise friction. So , objects are given special shapes.
What fluids move through objects?
Fluids such as air, water, and oil can move through objects, depending on the permeability and composition of the objects. These fluids can flow through materials like porous rocks, membranes, and pipes, allowing for the transfer of gases and liquids. The movement of fluids through objects can be influenced by factors such as pressure differentials, temperature gradients, and the physical properties of the fluid and object.
What is the force that pulls objects up in the water?
Objects in water or other fluids can be pushed up to the surface by buoyancy.
Why is it called non newtonian fluids?
Non-Newtonian fluids are named after Sir Isaac Newton, who described the behavior of regular fluids (Newtonian fluids) with his laws of motion and viscosity. Non-Newtonian fluids deviate from these laws, displaying unusual behaviors such as changes in viscosity under different conditions.
What kind of fluids move through objects?
Different types of fluids, such as water, air, oil, and gases, can move through objects like pipes, tubes, and channels. The flow of fluids can be controlled and optimized through various engineering principles and technologies to ensure efficient transportation and distribution. Fluid dynamics plays a crucial role in understanding and manipulating the movement of fluids through different systems.
