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## Credits

National Institute of Technology Karnataka (NITK), Surathkal
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## Density of Water when Water Pressure in the gravity dam is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
density_of_water = Pressure/0.5*(Height of Section^2)
WD = P/0.5*(h^2)
This formula uses 2 Variables
Variables Used
Pressure - The pressure is defined as the physical force exerted on an object. It is symbolized by P. (Measured in Pascal)
Height of Section - Height of Section is the height of the triangular section. (Measured in Millimeter)
STEP 1: Convert Input(s) to Base Unit
Pressure: 800 Pascal --> 800 Pascal No Conversion Required
Height of Section: 10 Millimeter --> 0.01 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
WD = P/0.5*(h^2) --> 800/0.5*(0.01^2)
Evaluating ... ...
WD = 0.16
STEP 3: Convert Result to Output's Unit
0.16 Kilogram per Meter³ --> No Conversion Required
0.16 Kilogram per Meter³ <-- Water Density
(Calculation completed in 00.031 seconds)

## < 11 Other formulas that you can solve using the same Inputs

exact normal shock-wave maximum coefficient of pressure
pressure_coefficient_max = (2/(Specific Heat Ratio*(Mach Number^2)))*((Total Pressure/Pressure)-1) Go
Maximum Pressure coefficient
pressure_coefficient_max = (Total Pressure-Pressure)/(0.5*Density*(Freestream Velocity)^2) Go
Cavitation Number
cavitation_number = (Pressure-Vapour Pressure)/(mass density*(Fluid Velocity^2)/2) Go
Compressibility Factor
compressibility_factor = Pressure*Specific Volume/([R]*Temperature) Go
Velocity of sound using dynamic pressure and density
speed_sound = sqrt((Specific Heat Ratio*Pressure)/Density) Go
Non-dimensional pressure
non_dimensionalized_pressure = Pressure/(Density*(Freestream Velocity)^2) Go
Ideal Gas Law for Calculating Volume
ideal_gas_law_for_calculating_volume = [R]*Temperature/Pressure Go
Work Done in Isobaric Process
w_isobaric = Pressure*(Volume of gas 2-Volume of gas 1) Go
Section Modulus of Triangular Section
section_modulus = (Width of Section*(Height of Section^2))/24 Go
Reduced Pressure
reduced_pressure = Pressure/Critical Pressure Go
Buoyant Force
buoyant_force = Pressure*Area Go

## < 6 Other formulas that calculate the same Output

Density of Water when Coefficient of Drag is Given
density_of_water = ((4/3)*(Unit weight of particle-Unit weight of water)*Diameter)/((Settling velocity)^2*coefficient of drag) Go
Density of Liquid when Output Power is Given
density_of_water = Output Power/(Rate of flow*flow velocity*(Absolute Velocity of the Issuing Jet-flow velocity)) Go
Density of Liquid when Thrust on the Propeller is Given
density_of_water = Thrust force/(Rate of flow*(Absolute Velocity of the Issuing Jet-flow velocity)) Go
Density of Water when Volume of Digested Sludge is Given
density_of_water = (Weight of sludge)/(Sludge volume*Specific gravity of sludge*Percent solids) Go
Density of Water when Drag Force Offered by the Fluid is Given
density_of_water = Drag Force/(coefficient of drag*Area*((Velocity of fall)^2)/2) Go
Density of Water when Kinematic Viscosity of Water is Given
density_of_water = (Dynamic viscosity/Kinematic viscosity) Go

### Density of Water when Water Pressure in the gravity dam is Given Formula

density_of_water = Pressure/0.5*(Height of Section^2)
WD = P/0.5*(h^2)

## What is gravity dam?

A gravity dam is a dam constructed from concrete or stone masonry and designed to hold back water by using only the weight of the material and its resistance against the foundation to oppose the horizontal pressure of water pushing against it.

## How to Calculate Density of Water when Water Pressure in the gravity dam is Given?

Density of Water when Water Pressure in the gravity dam is Given calculator uses density_of_water = Pressure/0.5*(Height of Section^2) to calculate the Water Density, The Density of Water when Water Pressure in the gravity dam is Given formula is defined as mass per unit volume of water. Water Density and is denoted by WD symbol.

How to calculate Density of Water when Water Pressure in the gravity dam is Given using this online calculator? To use this online calculator for Density of Water when Water Pressure in the gravity dam is Given, enter Pressure (P) and Height of Section (h) and hit the calculate button. Here is how the Density of Water when Water Pressure in the gravity dam is Given calculation can be explained with given input values -> 0.16 = 800/0.5*(0.01^2).

### FAQ

What is Density of Water when Water Pressure in the gravity dam is Given?
The Density of Water when Water Pressure in the gravity dam is Given formula is defined as mass per unit volume of water and is represented as WD = P/0.5*(h^2) or density_of_water = Pressure/0.5*(Height of Section^2). The pressure is defined as the physical force exerted on an object. It is symbolized by P and Height of Section is the height of the triangular section.
How to calculate Density of Water when Water Pressure in the gravity dam is Given?
The Density of Water when Water Pressure in the gravity dam is Given formula is defined as mass per unit volume of water is calculated using density_of_water = Pressure/0.5*(Height of Section^2). To calculate Density of Water when Water Pressure in the gravity dam is Given, you need Pressure (P) and Height of Section (h). With our tool, you need to enter the respective value for Pressure and Height of Section 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 Water Density?
In this formula, Water Density uses Pressure and Height of Section. We can use 6 other way(s) to calculate the same, which is/are as follows -
• density_of_water = (Weight of sludge)/(Sludge volume*Specific gravity of sludge*Percent solids)
• density_of_water = Thrust force/(Rate of flow*(Absolute Velocity of the Issuing Jet-flow velocity))
• density_of_water = Output Power/(Rate of flow*flow velocity*(Absolute Velocity of the Issuing Jet-flow velocity))
• density_of_water = (Dynamic viscosity/Kinematic viscosity)
• density_of_water = Drag Force/(coefficient of drag*Area*((Velocity of fall)^2)/2)
• density_of_water = ((4/3)*(Unit weight of particle-Unit weight of water)*Diameter)/((Settling velocity)^2*coefficient of drag)
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