Kethavath Srinath
Osmania University (OU), Hyderabad
Kethavath Srinath has created this Calculator and 25+ more calculators!
Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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11 Other formulas that you can solve using the same Inputs

Volume of a Conical Frustum
Volume=(1/3)*pi*Height*(Radius 1^2+Radius 2^2+(Radius 1*Radius 2)) GO
Total Surface Area of a Cone
Total Surface Area=pi*Radius*(Radius+sqrt(Radius^2+Height^2)) GO
Lateral Surface Area of a Cone
Lateral Surface Area=pi*Radius*sqrt(Radius^2+Height^2) GO
Total Surface Area of a Cylinder
Total Surface Area=2*pi*Radius*(Height+Radius) GO
Lateral Surface Area of a Cylinder
Lateral Surface Area=2*pi*Radius*Height GO
Volume of a Circular Cone
Volume=(1/3)*pi*(Radius)^2*Height GO
Area of a Trapezoid
Area=((Base A+Base B)/2)*Height GO
Volume of a Circular Cylinder
Volume=pi*(Radius)^2*Height GO
Volume of a Pyramid
Volume=(1/3)*Side^2*Height GO
Area of a Triangle when base and height are given
Area=1/2*Base*Height GO
Area of a Parallelogram when base and height are given
Area=Base*Height GO

Absolute Pressure at a Height h Formula

absolute pressure=Atmospheric pressure+specific weight of liquid*Height
More formulas
Knudsen Number GO
Kinematic viscosity GO
Pressure Wave Velocity in Fluids GO
Surface tension GO
Bulk Modulus GO
Weight GO
Upthrust Force GO
Viscous Stress GO
Stokes Force GO
Reynolds Number GO
Specific Weight GO
Specific Volume GO
Inertial Force Per Unit Area GO
Body Force Work Rate GO
Heat Loss due to Pipe GO
Dynamic viscosity of fluids GO
Dynamic Viscosity of Gases GO
Viscous Force Per Unit Area GO
Terminal Velocity GO
Poiseuille's Formula GO
Dynamic Viscosity of Liquids GO
Pressure Inside the Liquid Drop GO
Center of Gravity GO
Center of Buoyancy GO
Metacenter GO
Pressure Inside the Soap Bubble GO
Turbulence GO
Height of Capillary Rise GO
Capillarity Through Parallel Plates GO
Capillarity Through an Annular Space GO
Capillarity Through a Circular Tube if inserted in liquid of S1 above a liquid of S2 GO
Cavitation Number GO
Pressure in Excess of Atmospheric Pressure GO
Normal Stress 1 GO
Normal Stress 2 GO
Differential pressure between two points GO
U-Tube Manometer equation GO
Differential pressure-Differential Manometer GO
Pressure using inclined Manometer GO
Sensitivity of inclined manometer GO
Total Hydrostatic force GO
Center of pressure GO
Buoyancy Force GO
Center of Pressure on Inclined Plane GO
Metacentric Height GO
Metacentric Height when Moment of Inertia is Given GO
Unstable Equilibrium of a Floating Body GO
Experimental determination of Metacentric height GO
Time period of Rolling GO
Rate of Flow GO
Equation of Continuity for Incompressible Fluids GO
Equation of Continuity for Compressible Fluids GO
Vorticity GO
Dynamic Pressure GO
Stagnation Pressure head GO
Dynamic Pressure head-pitot tube GO
Theoretical Velocity - Pitot Tube GO
Theoretical discharge -Venturimeter GO
Discharge through an Elbow meter GO
Variation of y with x in Free Liquid Jet GO
Time of Flight of Jet GO
Time to Reach Highest Point GO
Maximum Vertical Elevation of a Jet Profile GO
Horizontal Range of the Jet GO
Power Required to Overcome the Frictional Resistance in Laminar Flow GO
Frictional Factor of Laminar flow GO
Head loss due to Laminar Flow GO
Friction velocity GO
Force in direction of jet striking a stationary vertical plate GO
Hydraulic Transmission of Power GO
Efficiency of transmission GO
Bulk Modulus When Velocity Of Pressure Wave Is Given GO
Mass Density When Velocity Of Pressure Wave Is Given GO
Surface Energy When Surface Tension Is Given GO
Surface Area When Surface Tension Is Given GO
Shear Stress When Dynamic Viscosity Of A Fluid Is Given GO
Velocity Of Moving Plates When Dynamic Viscosity Is Given GO
Distance Between Plates When Dynamic Viscosity Of A Fluid Is Given GO
Surface Tension Of Liquid Drop When Change In Pressure Is Given GO
Diameter Of Droplet When Pressure Change Is Given GO
Surface Tension Of Soap Bubble When Pressure Change Is Given GO
The diameter Of Soap Bubble When Pressure Change Is Given GO
Specific Weight Of A Liquid When Absolute Pressure Of That liquid At A height is Given GO
Height Of Liquid When Absolute Pressure Of That Liquid Is Given GO
Specific Weight Of Fluid 1 When Differential Pressure Between Two Points Is Given GO
Specific Weight Of Fluid 2 When Differential Pressure Between Two Points Is Given GO
Height Of Fluid 1 When Differential Pressure Between Two Points Is Given GO
Height Of Fluid 2 When Differential Pressure Between Two Points Is Given GO
Specific Weight of Inclined Manometer Liquid When Pressure at A Point is Given GO
Length of Inclined Manometer When Pressure at a Point is Given GO
Angle of Inclined Manometer When Pressure at a Point is Given GO
Angle of Inclined Manometer When Sensitivity is Given GO
Specific Weight of Liquid When Total Hydrostatic Force is given GO
Depth of Centroid When Total Hydrostatic Force is Given GO
Area of the Surface Wetted When Total Hydrostatic Force is Given GO
Moment of Inertia about Centroid When Center of Pressure is Given GO
Area of Surface Wetted When Center of Pressure is Given GO

What is absolute pressure?

Absolute pressure is the sum of gauge pressure and atmospheric pressure. Absolute pressure is measured relative to a full vacuum. The Absolute pressure in fluids cannot be negative. Fluids push rather than pull, so the smallest absolute pressure is zero.

How to Calculate Absolute Pressure at a Height h?

Absolute Pressure at a Height h calculator uses absolute pressure=Atmospheric pressure+specific weight of liquid*Height to calculate the absolute pressure, Absolute pressure at a height h is the total pressure present at the height h from the surface line. absolute pressure and is denoted by Pabs symbol.

How to calculate Absolute Pressure at a Height h using this online calculator? To use this online calculator for Absolute Pressure at a Height h, enter Height (h), specific weight of liquid (y) and Atmospheric pressure (Patm) and hit the calculate button. Here is how the Absolute Pressure at a Height h calculation can be explained with given input values -> 1.12 = 100000+1000*12.

FAQ

What is Absolute Pressure at a Height h?
Absolute pressure at a height h is the total pressure present at the height h from the surface line and is represented as Pabs=Patm+y*h or absolute pressure=Atmospheric pressure+specific weight of liquid*Height. Height is the distance between the lowest and highest points of a person standing upright, The specific weight of liquid is also known as the unit weight, is the weight per unit volume of the liquid. A commonly used value is the specific weight of water on Earth at 4°C, which is 9.807 kN/m3 or 62.43 lbf/ft3 and Atmospheric pressure also known as barometric pressure (after the barometer), is the pressure within the atmosphere of Earth.
How to calculate Absolute Pressure at a Height h?
Absolute pressure at a height h is the total pressure present at the height h from the surface line is calculated using absolute pressure=Atmospheric pressure+specific weight of liquid*Height. To calculate Absolute Pressure at a Height h, you need Height (h), specific weight of liquid (y) and Atmospheric pressure (Patm). With our tool, you need to enter the respective value for Height, specific weight of liquid and Atmospheric pressure 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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