Horizontal distance for coefficient of velocity and vertical distance Calculator

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Orifices and Mouthpieces

Draft Tube

Properties of Surfaces and Solids

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✖The Coefficient of Velocity is the ratio of actual velocity to theoretical velocity.ⓘ Coefficient of Velocity [C_v]			+10% -10%
✖vertical distance between center of transit and point on rod intersected by middle horizontal crosshair.ⓘ Vertical Distance [V]			+10% -10%
✖The Head of the liquid is the height of a liquid column that corresponds to a particular pressure exerted by the liquid column from the base of its container.ⓘ Head of the Liquid [H]			+10% -10%

✖Horizontal Distance denotes the instantaneous horizontal distance cover by an object in a projectile motion.ⓘ Horizontal distance for coefficient of velocity and vertical distance [R]

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Formula

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Horizontal distance for coefficient of velocity and vertical distance

Formula

`"R" = "C"_{"v"}*(sqrt(4*"V"*"H"))`

Example

`"23.27436m"="0.92"*(sqrt(4*"4m"*"40m"))`

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Horizontal distance for coefficient of velocity and vertical distance Solution

STEP 0: Pre-Calculation Summary

Formula Used

Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid))
R = C_v*(sqrt(4*V*H))
This formula uses 1 Functions, 4 Variables

Functions Used

sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)

Variables Used

Horizontal Distance - (Measured in Meter) - Horizontal Distance denotes the instantaneous horizontal distance cover by an object in a projectile motion.
Coefficient of Velocity - The Coefficient of Velocity is the ratio of actual velocity to theoretical velocity.
Vertical Distance - (Measured in Meter) - vertical distance between center of transit and point on rod intersected by middle horizontal crosshair.
Head of the Liquid - (Measured in Meter) - The Head of the liquid is the height of a liquid column that corresponds to a particular pressure exerted by the liquid column from the base of its container.

STEP 1: Convert Input(s) to Base Unit

Coefficient of Velocity: 0.92 --> No Conversion Required
Vertical Distance: 4 Meter --> 4 Meter No Conversion Required
Head of the Liquid: 40 Meter --> 40 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R = C_v*(sqrt(4*V*H)) --> 0.92*(sqrt(4*4*40))

Evaluating ... ...

R = 23.2743635788393

STEP 3: Convert Result to Output's Unit

23.2743635788393 Meter --> No Conversion Required

FINAL ANSWER

23.2743635788393 ≈ 23.27436 Meter <-- Horizontal Distance

(Calculation completed in 00.020 seconds)

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Created by Maiarutselvan V

PSG College of Technology (PSGCT), Coimbatore

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Amrita School of Engineering (ASE), Vallikavu

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< 8 Geometric Dimensions Calculators

Area of Orifice given Time of Emptying Hemispherical Tank

Go Area of Orifice = (pi*(((4/3)*Hemispherical Tank Radius*((Initial Height of Liquid^(3/2))-(Final Height of Liquid^(3/2))))-((2/5)*((Initial Height of Liquid^(5/2))-(Final Height of Liquid)^(5/2)))))/(Total Time Taken*Coefficient of Discharge*(sqrt(2*9.81)))

Area of Tank given Time for Emptying Tank

Go Area of Tank = (Total Time Taken*Coefficient of Discharge*Area of Orifice*(sqrt(2*9.81)))/(2*((sqrt(Initial Height of Liquid))-(sqrt(Final Height of Liquid))))

Horizontal distance for coefficient of velocity and vertical distance

Go Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid))

Vertical distance for coefficient of velocity and horizontal distance

Go Vertical Distance = (Horizontal Distance^2)/(4*(Coefficient of Velocity^2)*Head of the Liquid)

Area at vena contracta for discharge and constant head

Go Area at Vena Contracta = Discharge through Mouthpiece/(sqrt(2*9.81*Constant Head))

Area of Mouthpiece in Borda's Mouthpiece Running Full

Go Area = Discharge through Mouthpiece/(0.707*sqrt(2*9.81*Constant Head))

Area of Mouthpiece in Borda's Mouthpiece Running Free

Go Area = Discharge through Mouthpiece/(0.5*sqrt(2*9.81*Constant Head))

Coefficient of Contraction given Area of Orifice

Go Coefficient of Contraction = Area of Jet/Area of Orifice

Horizontal distance for coefficient of velocity and vertical distance Formula

Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid))
R = C_v*(sqrt(4*V*H))

What is the experimental determination of coefficient of velocity?

In the experimental method, the liquid particle is at vena-contracta at any time and takes the position at P along with the jet in time 't'. Whereas, 'x' is the horizontal distance traveled by the particle in time 't' and 'y' is the vertical distance between P and C-C.

What is vena contracta relation here?

n the experimental method, C-C represents the vena-contracta of a jet of water coming out from an orifice under a constant head.

How to Calculate Horizontal distance for coefficient of velocity and vertical distance?

Horizontal distance for coefficient of velocity and vertical distance calculator uses Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid)) to calculate the Horizontal Distance, The Horizontal distance for coefficient of velocity and vertical distance formula is defined from the experimental determination of hydraulic coefficients. Horizontal Distance is denoted by R symbol.

How to calculate Horizontal distance for coefficient of velocity and vertical distance using this online calculator? To use this online calculator for Horizontal distance for coefficient of velocity and vertical distance, enter Coefficient of Velocity (C_v), Vertical Distance (V) & Head of the Liquid (H) and hit the calculate button. Here is how the Horizontal distance for coefficient of velocity and vertical distance calculation can be explained with given input values -> 23.27436 = 0.92*(sqrt(4*4*40)).

FAQ

What is Horizontal distance for coefficient of velocity and vertical distance?

The Horizontal distance for coefficient of velocity and vertical distance formula is defined from the experimental determination of hydraulic coefficients and is represented as R = C_v*(sqrt(4*V*H)) or Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid)). The Coefficient of Velocity is the ratio of actual velocity to theoretical velocity, vertical distance between center of transit and point on rod intersected by middle horizontal crosshair & The Head of the liquid is the height of a liquid column that corresponds to a particular pressure exerted by the liquid column from the base of its container.

How to calculate Horizontal distance for coefficient of velocity and vertical distance?

The Horizontal distance for coefficient of velocity and vertical distance formula is defined from the experimental determination of hydraulic coefficients is calculated using Horizontal Distance = Coefficient of Velocity*(sqrt(4*Vertical Distance*Head of the Liquid)). To calculate Horizontal distance for coefficient of velocity and vertical distance, you need Coefficient of Velocity (C_v), Vertical Distance (V) & Head of the Liquid (H). With our tool, you need to enter the respective value for Coefficient of Velocity, Vertical Distance & Head of the Liquid 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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