nO THAT'S YOUR MOTHERS VELOCITY LOLOLOLOLOLOLOLOLOLOLOL LAWLS ATU
WHAT IS THE DIFFERENCE BETWEEN AN ORANGE?
describe and explain the relationship between the diameter of vessels and the velocity of blood
no
velocity ratio= 2D/(d1 - d2) , where D = diameter of effort wheel,d1&d2= diameter of the axles.
Vapor pressure is the main factor in determining cavitation. Vapor pressure is a dependent on temperature. A pipes diameter becomes a main factor because it directly reflects the velocity of the pipe. Velocity is an important factor in determining cavitation in a pipe since it effects the velocity head for a piping system. If the velocity head is to great it could decrease the pressure inside of the pipe causing cavitation. Example: For a given pipethe flow will constant for. However the velocity in the pipe is dependent on its diameter. This is because velocity is based on the ratio of flow to area. Flow will not change but based on the diameter of the pipe it will have a different velocity. If the pipe had varying diameters the velocity will vary as well. Higher velocities will be at areas where the diameter is small and slower at areas where the diameter is larger.
Well, obviously kinematics, gravity, and velocity affect basketball. Especially when you're shooting the ball.
As the steam velocity increases, the diameter of the sediments being transported increases.
For unmyelinated nerves there is a relationship between axon diameter and conduction velocity. Larger diameter nerves conduct faster. For myelinated nerves the a larger diameter nerve will conduct faster between the nodes of ranvier where the action potential is propagated. Conduction is said to be saltatoryas it jumps from node to node.
Static pressure is .434 X height Example 10 ft x .434 4.34 PSI to prove take 2.31 PSI x 4.34 To find FORCE to need to calculate the diameter of the piping and the height and then the weight of the water inside the pipe
Heavily myelinated, large diameter fibers
It depends on the wheel's diameter.
Vc = (Reyonlds Number * viscosity)/diameter of tube*density
50