In laminar flow, easy to define the burning velocity, independent of the measuring apparatus within reasonable limits whereas not possible to turbulent flow.
laminar =viscosity drops intertaily motion Turbulent = intertia dominates motion.
Yes, but the dividing line between those two states is not a sharp one.
In laminar flow, air resistance is proportional to velocity of the body whereas in turbulent flow, air resistance is proportional to (velocity)2.
An air plane wing or anything that reduces drag like an arrow,dart, or even fish. Other examples could be the fins of dolphins, blood through arteries, water in a tube. Just remember that laminar flow is flow in which the fluid flows smoothly without much resistance. The fluid pretty much travels in straight or almost straight lines.
Steady flow: laminar flow over a sphere. Unsteady flow: turbulent flow over anything.
laminar =viscosity drops intertaily motion Turbulent = intertia dominates motion.
difference between laminar air flow & reverse laminar air flow
Yes, but the dividing line between those two states is not a sharp one.
gago..
This question is its own answer. The flow patterns in laminar flow are laminar.
In laminar flow, air resistance is proportional to velocity of the body whereas in turbulent flow, air resistance is proportional to (velocity)2.
You want laminar around a bicycle for less resistance, but turbulent in rafting so that you get all of the white water
Disadvantage: It takes energy to move the fluid. Advantage: It helps boats move since there aren't any waves.
Reynolds number tells you what the flow is doing. A Reynolds number of 0-2000 is laminar flow 2000-4000 is the transition (where both laminar and turbulent flow is possible) 4000+ is fully turbulent flow
The laminar flow hood depends on the laminar air flow to sweep away pathogens from the hood. If there is obstruction, the laminar air flow pattern will be disrupted. The laminar air flow will then change to turbulent air flow.
The transition between laminar and turbulent flow occurs not at a specific value of the Reynolds number but in a range usually beginning between 1,000 to 2,000 and extending upward to between 3,000 and 5,000.
Smoke rising from a flame. At first the smoke rises with laminar flow before becoming turbulent just a few centimetres above the source.