the flow of liquid throw a pipe line is said to be stream line if at any given point , the velocity of the particles is constant.
Streamline motion is characterized by smooth, orderly flow where fluid particles move in parallel paths with minimal mixing. Turbulent motion, on the other hand, is chaotic and unpredictable, with fluid particles moving in irregular patterns resulting in high levels of mixing and fluctuations in velocity and pressure. Turbulence is typically observed at higher flow velocities or in the presence of obstacles or irregular surfaces.
Streamline flow is characterized by smooth, orderly movement of fluid particles in parallel layers, with minimal mixing between layers. Turbulent flow, on the other hand, involves chaotic, irregular movement with strong mixing and high levels of energy dissipation. Turbulent flow is often associated with higher velocities and Reynolds numbers compared to streamline flow.
Laminar flow refers to smooth, orderly flow with predictable patterns, while turbulent flow is characterized by chaotic, irregular movement with swirling vortices and mixing. The transition from laminar to turbulent flow occurs when the flow speed or viscosity of the fluid increases, leading to the breakdown of laminar layers and the onset of turbulence.
The turbulent energy budget refers to the balance between the different sources and sinks of turbulent kinetic energy in a fluid flow, such as atmosphere or ocean. It accounts for processes like energy input from wind or buoyancy forces, energy dissipation due to turbulence, and energy transfer between different scales of motion. Understanding the turbulent energy budget is important for predicting and simulating fluid flow behaviors.
Turbulent flows involve chaotic, unpredictable motion characterized by fluctuating velocity fields and energy cascades across different length scales. Granular materials exhibit complex behavior due to interactions between individual particles, leading to phenomena like jamming, segregation, and shear banding. Understanding both requires considering non-linear interactions, energy dissipation mechanisms, and the role of fluctuating dynamics in driving macroscopic behavior.
The equation for turbulent flow is described by the Navier-Stokes equations, which are a set of partial differential equations that describe how the velocity field of a fluid evolves over time. These equations take into account the fluid's viscosity, density, and the forces acting upon it. Turbulent flow is a complex, chaotic motion characterized by irregular fluctuations in velocity and pressure within the fluid.
Streamline flow is characterized by smooth, orderly movement of fluid particles in parallel layers, with minimal mixing between layers. Turbulent flow, on the other hand, involves chaotic, irregular movement with strong mixing and high levels of energy dissipation. Turbulent flow is often associated with higher velocities and Reynolds numbers compared to streamline flow.
Due to streamlined shape, flow of the air around vehicle remains streamline and does not turn turbulent at high speed of vechile. This turn turbulent at high speed of vehicle. This helps in smooth running of vehicle.
Due to streamlined shape, flow of the air around vehicle remains streamline and does not turn turbulent at high speed of vechile. This turn turbulent at high speed of vehicle. This helps in smooth running of vehicle.
Laminar flow refers to smooth, orderly flow with predictable patterns, while turbulent flow is characterized by chaotic, irregular movement with swirling vortices and mixing. The transition from laminar to turbulent flow occurs when the flow speed or viscosity of the fluid increases, leading to the breakdown of laminar layers and the onset of turbulence.
Streamline flow:The flow of a fluid is said to be streamline (also known as steady flow or laminar flow), if every particle of the fluid follows exactly the path of its preceding particle and has the same velocity as that of its preceding particle when crossing a fixed point of reference.Turbulent flow:The flow of a fluid is said to be turbulent or disorderly, if its velocity is greater than its critical velocity. Critical velocity of a fluid is that velocity up to which the fluid flow is streamlined and above which its flow becomes turbulent. When the velocity of a fluid exceeds the critical velocity, the paths and velocities of the fluid particles begin to change continuously and haphazardly. The flow loses all its orderliness and is called turbulent flow.
His nature is very Turbulent. The trip was very Turbulent.
The turbulent energy budget refers to the balance between the different sources and sinks of turbulent kinetic energy in a fluid flow, such as atmosphere or ocean. It accounts for processes like energy input from wind or buoyancy forces, energy dissipation due to turbulence, and energy transfer between different scales of motion. Understanding the turbulent energy budget is important for predicting and simulating fluid flow behaviors.
Turbulent is an adjective. The noun form of turbulent is turbulence.
Turbulent flow
Turbulent flows involve chaotic, unpredictable motion characterized by fluctuating velocity fields and energy cascades across different length scales. Granular materials exhibit complex behavior due to interactions between individual particles, leading to phenomena like jamming, segregation, and shear banding. Understanding both requires considering non-linear interactions, energy dissipation mechanisms, and the role of fluctuating dynamics in driving macroscopic behavior.
Lightening is caused by the accumulation of static electricity in the molecules of air and water that results from the motion of those molecules in a turbulent thunder cloud.
His ministers predicted that turbulent times were ahead.The relationship was very turbulent.