In laminar flow, easy to define the burning velocity, independent of the measuring apparatus within reasonable limits whereas not possible to turbulent 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.
Increasing the velocity of the fluid will cause a laminar flow to become turbulent.
In fluid dynamics, laminar boundary layers have smooth and orderly flow, while turbulent boundary layers have chaotic and irregular flow. Laminar flow is characterized by layers of fluid moving in parallel, while turbulent flow involves swirling and mixing of fluid layers. Turbulent boundary layers have higher levels of energy and mixing compared to laminar boundary layers.
Laminar flow in fluid dynamics is smooth and orderly, with layers of fluid moving in parallel without mixing. Turbulent flow is chaotic and unpredictable, with swirling eddies and mixing of fluid layers. The main difference is the level of disorder and mixing within the flow.
Laminar flow is smooth and orderly, with fluid moving in parallel layers, while turbulent flow is chaotic and unpredictable, with swirling and mixing of fluid. Laminar flow has low energy loss and is easy to predict, while turbulent flow has high energy loss and is harder to predict.
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.
difference between laminar air flow & reverse laminar air flow
Increasing the velocity of the fluid will cause a laminar flow to become turbulent.
In fluid dynamics, laminar boundary layers have smooth and orderly flow, while turbulent boundary layers have chaotic and irregular flow. Laminar flow is characterized by layers of fluid moving in parallel, while turbulent flow involves swirling and mixing of fluid layers. Turbulent boundary layers have higher levels of energy and mixing compared to laminar boundary layers.
Laminar flow in fluid dynamics is smooth and orderly, with layers of fluid moving in parallel without mixing. Turbulent flow is chaotic and unpredictable, with swirling eddies and mixing of fluid layers. The main difference is the level of disorder and mixing within the flow.
Laminar flow is smooth and orderly, with fluid moving in parallel layers, while turbulent flow is chaotic and unpredictable, with swirling and mixing of fluid. Laminar flow has low energy loss and is easy to predict, while turbulent flow has high energy loss and is harder to predict.
gago..
This question is its own answer. The flow patterns in laminar flow are laminar.
Flows can be either turbulent or laminar, depending on the velocity and viscosity of the fluid. Laminar flow occurs at low velocities and is smooth and orderly, with layers of fluid moving in parallel without mixing. Turbulent flow occurs at higher velocities and is chaotic, with swirling vortices and mixing of fluid layers.
In fluid dynamics, turbulent flow is chaotic and unpredictable, with swirling eddies and fluctuations in velocity and pressure. Laminar flow, on the other hand, is smooth and orderly, with layers of fluid moving in parallel without mixing. Turbulent flow has higher energy losses and mixing, while laminar flow has lower energy losses and is easier to predict and control.
Flow in a Venturi tube can be either laminar or turbulent, depending on the flow rate and Reynolds number. At low flow rates, the flow tends to be laminar, while at high flow rates, it can transition to turbulent flow.
Turbulent flow transports more sediment than laminar flow due to the increased velocity and mixing of particles in turbulent flow. This helps to keep sediments suspended and advected downstream more effectively.