Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month Calculator

✖Evaporation loss is defined as the loss of water from water basin through evaporation.ⓘ Evaporation loss [E]			+10% -10%
✖Maximum Vapour Pressure is the maximum value of pressure applied by the vapours.ⓘ Maximum Vapour Pressure [V]			+10% -10%
✖Actual Vapour Pressure is the value of pressure applied by the vapours.ⓘ Actual Vapour Pressure [v]			+10% -10%
✖Mean Wind Velocity is the average velocity of the wind at certain height.ⓘ Mean Wind Velocity [W_v]			+10% -10%
✖Constant which depend upon southern pine and other species.ⓘ Constant [x]			+10% -10%

✖Meyer's constant is the value which depends upon depth of water bodies.ⓘ Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month [C]

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Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month

Formula

`"C" = "E"/(("V"-"v")*(1+("W"_{"v"}/"x")))`

Example

`"16.66667"="2cm/s"/(("2cmHg"-"1.9cmHg")*(1+("2cm/s"/"10")))`

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Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month Solution

STEP 0: Pre-Calculation Summary

Formula Used

Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant)))
C = E/((V-v)*(1+(W_v/x)))
This formula uses 6 Variables

Variables Used

Meyer's constant - Meyer's constant is the value which depends upon depth of water bodies.
Evaporation loss - (Measured in Centimeter per Second) - Evaporation loss is defined as the loss of water from water basin through evaporation.
Maximum Vapour Pressure - (Measured in Centimeter Mercury (0 °C)) - Maximum Vapour Pressure is the maximum value of pressure applied by the vapours.
Actual Vapour Pressure - (Measured in Centimeter Mercury (0 °C)) - Actual Vapour Pressure is the value of pressure applied by the vapours.
Mean Wind Velocity - (Measured in Centimeter per Second) - Mean Wind Velocity is the average velocity of the wind at certain height.
Constant - Constant which depend upon southern pine and other species.

STEP 1: Convert Input(s) to Base Unit

Evaporation loss: 2 Centimeter per Second --> 2 Centimeter per Second No Conversion Required
Maximum Vapour Pressure: 2 Centimeter Mercury (0 °C) --> 2 Centimeter Mercury (0 °C) No Conversion Required
Actual Vapour Pressure: 1.9 Centimeter Mercury (0 °C) --> 1.9 Centimeter Mercury (0 °C) No Conversion Required
Mean Wind Velocity: 2 Centimeter per Second --> 2 Centimeter per Second No Conversion Required
Constant: 10 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C = E/((V-v)*(1+(W_v/x))) --> 2/((2-1.9)*(1+(2/10)))

Evaluating ... ...

C = 16.6666666666667

STEP 3: Convert Result to Output's Unit

16.6666666666667 --> No Conversion Required

FINAL ANSWER

16.6666666666667 ≈ 16.66667 <-- Meyer's constant

(Calculation completed in 00.004 seconds)

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Birsa Institute of Technology (BIT), Sindri

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< 22 Evaporation and Transpiration Calculators

Constant used in Rohwer's Formula given Evaporation Loss Per Day

Go Constant B = Net Evaporation Losses/((1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))*(Maximum Vapour Pressure-Actual Vapour Pressure))

Evaporation Loss Per Day

Go Net Evaporation Losses = Constant B*(1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))*(Maximum Vapour Pressure-Actual Vapour Pressure)

Mean Wind Velocity at Ground Level given Evaporation Loss Per Day

Go Mean Wind Velocity = (Evaporation loss/(Constant B*(1.465-(0.00732*Atmospheric pressure))*(Maximum Vapour Pressure-Actual Vapour Pressure))-0.44)/0.0732

Maximum Vapour Pressure given Evaporation Loss Per Day

Go Maximum Vapour Pressure = Actual Vapour Pressure+(Evaporation loss/(Constant*(1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))))

Actual Vapour Pressure given Evaporation Loss Per Day

Go Actual Vapour Pressure = Maximum Vapour Pressure-(Evaporation loss/(Constant*(1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))))

Atmospheric Pressure given Evaporation Loss Per Day

Go Atmospheric pressure = (1.456-(Evaporation loss/(Constant*(0.44+(0.0732*Mean Wind Velocity))*(Maximum Vapour Pressure-Actual Vapour Pressure))))/0.00732

Constant Used in Meyer's Formula given Evaporation Loss Per Month

Go Constant B = Mean Wind Velocity/((Evaporation loss per month/(Meyer's constant*(Maximum Vapour Pressure-Actual Vapour Pressure)))-1)

Maximum Vapour Pressure given Evaporation Loss Per Month

Go Maximum Vapour Pressure = Actual Vapour Pressure+(Evaporation loss per month/(Meyer's constant*(1+(Mean Wind Velocity/Constant))))

Monthly Mean Wind Velocity given Evaporation Loss Per Month

Go Mean Wind Velocity = ((Evaporation loss/(Meyer's constant*(Maximum Vapour Pressure-Actual Vapour Pressure)))-1)*Constant B

Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month

Go Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant)))

Actual Vapour Pressure given Evaporation Loss Per Month

Go Actual Vapour Pressure = Maximum Vapour Pressure-(Evaporation loss/(Meyer's constant*(1+(Mean Wind Velocity/Constant))))

Evaporation Loss Per Month

Go Evaporation loss = Meyer's constant*(Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))

Constant used in Rohwer's Formula given Change in Vapour Pressure

Go Constant B = Net Evaporation Losses/((1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))* Change in vapour pressure)

Change in Vapour Pressure given Evaporation Loss Per Day

Go Change in vapour pressure = Net Evaporation Losses/(Constant B*(1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity)))

Evaporation Loss Per Day given Change in Vapour Pressure

Go Net Evaporation Losses = Constant B*(1.465-(0.00732*Atmospheric pressure))*(0.44+(0.0732*Mean Wind Velocity))*Change in vapour pressure

Atmospheric Pressure given Change in Vapour Pressure

Go Atmospheric pressure = (1.456-(Evaporation loss/(Constant*(0.44+(0.0732*Mean Wind Velocity))*Change in vapour pressure )))/0.00732

Evaporation Loss Per Month when Constant Used in Meyer's Formula is 16

Go Evaporation loss per month = Meyer's constant*(Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/16))

Evaporation Loss Per Month given Shallow Water Body

Go Evaporation loss per month = 1.5*(Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))

Evaporation Loss Per Month given Deep Water Body

Go Evaporation loss per month = 1.1*(Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))

Evaporation Loss Per Month given Change in Vapour Pressure

Go Evaporation loss per month = Meyer's constant*Change in vapour pressure*(1+(Mean Wind Velocity/Constant))

Constant Dependent on Depth of Water Bodies given Change in Vapour Pressure

Go Meyer's constant = Evaporation loss/(Change in vapour pressure*(1+(Mean Wind Velocity/Constant)))

Change in Vapour Pressure given Evaporation Loss Per Month

Go Change in vapour pressure = Evaporation loss/(Meyer's constant*(1+(Mean Wind Velocity/Constant)))

Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month Formula

Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant)))
C = E/((V-v)*(1+(W_v/x)))

What is Evaporation Loss ?

The loss of a stored volatile liquid component or mixture by evaporation; controlled by temperature, pressure, and the presence or absence of vapour-recovery systems.

How to Calculate Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month?

Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month calculator uses Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))) to calculate the Meyer's constant, The Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month is defined as the value of constant when we have prior information of other parameters used. Meyer's constant is denoted by C symbol.

How to calculate Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month using this online calculator? To use this online calculator for Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month, enter Evaporation loss (E), Maximum Vapour Pressure (V), Actual Vapour Pressure (v), Mean Wind Velocity (W_v) & Constant (x) and hit the calculate button. Here is how the Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month calculation can be explained with given input values -> -1.5E-5 = 0.02/((2666.44-2533.118)*(1+(0.02/10))).

FAQ

What is Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month?

The Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month is defined as the value of constant when we have prior information of other parameters used and is represented as C = E/((V-v)*(1+(W_v/x))) or Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))). Evaporation loss is defined as the loss of water from water basin through evaporation, Maximum Vapour Pressure is the maximum value of pressure applied by the vapours, Actual Vapour Pressure is the value of pressure applied by the vapours, Mean Wind Velocity is the average velocity of the wind at certain height & Constant which depend upon southern pine and other species.

How to calculate Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month?

The Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month is defined as the value of constant when we have prior information of other parameters used is calculated using Meyer's constant = Evaporation loss/((Maximum Vapour Pressure-Actual Vapour Pressure)*(1+(Mean Wind Velocity/Constant))). To calculate Constant Dependent on Depth of Water Bodies given Evaporation Loss Per Month, you need Evaporation loss (E), Maximum Vapour Pressure (V), Actual Vapour Pressure (v), Mean Wind Velocity (W_v) & Constant (x). With our tool, you need to enter the respective value for Evaporation loss, Maximum Vapour Pressure, Actual Vapour Pressure, Mean Wind Velocity & Constant and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Meyer's constant?

In this formula, Meyer's constant uses Evaporation loss, Maximum Vapour Pressure, Actual Vapour Pressure, Mean Wind Velocity & Constant. We can use 1 other way(s) to calculate the same, which is/are as follows -

Meyer's constant = Evaporation loss/(Change in vapour pressure*(1+(Mean Wind Velocity/Constant)))

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