With respect to material being sheared, velocity gradient is the change dv in relative velocity v between parallel planes with respect to the change dr in perpendicular distance r throughout the depth of the material. Velocity gradient has the same dimensions as rate of shear, which is reciprocal seconds.
An increase in gradient will generally increase stream velocity.
Because that is the definition of velocity
As the pressure gradient increases, the wind velocity increases. This is because a larger pressure gradient indicates a greater difference in pressure between two points, leading to a stronger force exerted on the air. This stronger force results in faster wind velocities.
A velocity potential is a scalar function whose gradient is equal to the velocity of the fluid at that point. If a fluid is incompressible and has zero viscosity (an ideal fluid) its velocity as a function of position can always be described by a velocity potential. For a real fluid this is not generally possible.
Force
The steeper the gradient, the higher the velocity of flow.
An increase in gradient will generally increase stream velocity.
Known to be "VELOCITY GRADIENT"
the gradient and how much friction there was. The gradient means how steep the land the river is on so if it is very steep them the velocity will be higher.
The velocity gradient (du/dy) where du is the change in velocity and dy is the change in distance between plates, would have units of (1/time) or (1/sec).Hope this helps!
the gradient of the graph
Velocity is L/T, gradient ("per unit distance") is 1/L so L/T x 1/L = 1/T
the difference in velocity is mostly due to the great efficiency of the large downstream channel.
It is the downward gradient of the graph.
---STRONGER
linear
the rate of change of maximum value of potential with respect to distance is known as potential gradient