Velocity of Fluid Particle Solution

STEP 0: Pre-Calculation Summary
Formula Used
Velocity of Fluid Particle = Displacement/Total Time Taken
vfluid = d/ttotal
This formula uses 3 Variables
Variables Used
Velocity of Fluid Particle - (Measured in Meter per Second) - The Velocity of Fluid Particle in fluid dynamics terminology is used to mathematically describe the motion of a continuum.
Displacement - (Measured in Meter) - Displacement is a vector quantity that refers to "how far out of place an object is"; it is the object's overall change in position.
Total Time Taken - (Measured in Second) - Total Time Taken is the total time taken by the body to cover that space.
STEP 1: Convert Input(s) to Base Unit
Displacement: 10000 Centimeter --> 100 Meter (Check conversion here)
Total Time Taken: 80 Second --> 80 Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vfluid = d/ttotal --> 100/80
Evaluating ... ...
vfluid = 1.25
STEP 3: Convert Result to Output's Unit
1.25 Meter per Second --> No Conversion Required
FINAL ANSWER
1.25 Meter per Second <-- Velocity of Fluid Particle
(Calculation completed in 00.004 seconds)

Credits

Created by Suman Ray Pramanik
Indian Institute of Technology (IIT), Kanpur
Suman Ray Pramanik has created this Calculator and 50+ more calculators!
Verified by Anshika Arya
National Institute Of Technology (NIT), Hamirpur
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17 Kinematics of Flow Calculators

Actual Discharge in Venturimeter
Go Actual Discharge through Venturimeter = Coefficient of Discharge of Venturimeter*((Cross Section Area of Venturimeter Inlet*Cross Section Area of Venturimeter Throat)/(sqrt((Cross Section Area of Venturimeter Inlet^2)-(Cross Section Area of Venturimeter Throat^2)))*sqrt(2*[g]*Net Head of Liquid in Venturimeter))
Relative velocity of fluid with respect to body given drag force
Go Relative Velocity of Fluid Past Body = sqrt((Drag Force by Fluid on Body*2)/(Projected Area of Body*Density of Moving Fluid*Drag Coefficient for Fluid Flow))
Drag coefficient given Drag force
Go Drag Coefficient for Fluid Flow = (Drag Force by Fluid on Body*2)/(Projected Area of Body*Density of Moving Fluid*Relative Velocity of Fluid Past Body^2)
Difference in pressure head for light liquid in manometer
Go Difference in Pressure Head in Manometer = Difference in Liquid Level in Manometer*(1-(Specific Gravity of Lighter Liquid/Specific Gravity of Flowing Liquid))
Difference in Pressure Head for heavier Liquid in Manometer
Go Difference in Pressure Head in Manometer = Difference in Liquid Level in Manometer*(Specific Gravity of Heavier Liquid/Specific Gravity of Flowing Liquid-1)
Total Pressure Force at Bottom of Cylinder
Go Pressure Force on Bottom = Density*9.81*pi*(Radius^2)*Cylinder Height+Pressure Force on Top
Resultant bend force along x and y direction
Go Resultant Force on Pipe Bend = sqrt((Force along X-Direction on Pipe Bend^2)+(Force along Y-Direction on Pipe Bend^2))
Height or depth of paraboloid for volume of air
Go Height of Crack = ((Diameter^2)/(2*(Radius^2)))*(Length-Initial Height of Liquid)
Total pressure force on top of cylinder
Go Pressure Force on Top = (Liquid Density/4)*(Angular Velocity^2)*pi*(Radius^4)
Coefficient of pitot-tube for velocity at any point
Go Coefficient of Pitot Tube = Velocity at Any Point for Pitot Tube/(sqrt(2*9.81*Rise of Liquid in Pitot Tube))
Velocity at any point for coefficient of pitot-tube
Go Velocity at Any Point for Pitot Tube = Coefficient of Pitot Tube*sqrt(2*9.81*Rise of Liquid in Pitot Tube)
Resultant velocity for two velocity components
Go Resultant Velocity = sqrt((Velocity Component at U^2)+(Velocity Component at V^2))
Angular Velocity of Vortex using Depth of Parabola
Go Angular Velocity = sqrt((Depth of Parabola*2*9.81)/(Radius^2))
Air Resistance Force
Go Air Resistance = Air Constant*Velocity^2
Depth of Parabola formed at Free Surface of Water
Go Depth of Parabola = ((Angular Velocity^2)*(Radius^2))/(2*9.81)
Velocity of Fluid Particle
Go Velocity of Fluid Particle = Displacement/Total Time Taken
Rate of flow or discharge
Go Rate of Flow = Cross-Sectional Area*Average Velocity

Velocity of Fluid Particle Formula

Velocity of Fluid Particle = Displacement/Total Time Taken
vfluid = d/ttotal

What is Velocity?

The Velocity of the fluid particle in fluid dynamics terminology is used to mathematically describe the motion of a continuum. The flow velocity is a kinematic property of the fluid. It is a vector quantity and is given as the ratio of the displacement to the total time taken to cover the specific displacement.

How to Calculate Velocity of Fluid Particle?

Velocity of Fluid Particle calculator uses Velocity of Fluid Particle = Displacement/Total Time Taken to calculate the Velocity of Fluid Particle, The Velocity of Fluid Particle in fluid dynamics terminology is used to mathematically describe the motion of a continuum. Velocity of Fluid Particle is denoted by vfluid symbol.

How to calculate Velocity of Fluid Particle using this online calculator? To use this online calculator for Velocity of Fluid Particle, enter Displacement (d) & Total Time Taken (ttotal) and hit the calculate button. Here is how the Velocity of Fluid Particle calculation can be explained with given input values -> 1.25 = 100/80.

FAQ

What is Velocity of Fluid Particle?
The Velocity of Fluid Particle in fluid dynamics terminology is used to mathematically describe the motion of a continuum and is represented as vfluid = d/ttotal or Velocity of Fluid Particle = Displacement/Total Time Taken. Displacement is a vector quantity that refers to "how far out of place an object is"; it is the object's overall change in position & Total Time Taken is the total time taken by the body to cover that space.
How to calculate Velocity of Fluid Particle?
The Velocity of Fluid Particle in fluid dynamics terminology is used to mathematically describe the motion of a continuum is calculated using Velocity of Fluid Particle = Displacement/Total Time Taken. To calculate Velocity of Fluid Particle, you need Displacement (d) & Total Time Taken (ttotal). With our tool, you need to enter the respective value for Displacement & Total Time Taken and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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