Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
Ishita Goyal has created this Calculator and 100+ more calculators!
Chandana P Dev
NSS College of Engineering (NSSCE), Palakkad
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11 Other formulas that you can solve using the same Inputs

Discharge through partially sub-merged orifice
discharge through orifice=(coefficient of discharging*Width*(height of liquid bottom edge-difference in liquid level)*(sqrt(2*9.81*difference in liquid level)))+((2/3)*coefficient of discharging*Breadth*(sqrt(2*9.81))*((difference in liquid level^1.5)-(height of liquid top edge^1.5))) GO
Power of the Pelton turbine when velocity is given
Power of the Pelton turbine when velocity is given=mass density*Volume flow rate*(1+(K factor for the Pelton*cos(Oultet bucket angle of the Pelton)))*(Velocity of the Pelton jet-Bucket velocity of the Pelton turbine)*Bucket velocity of the Pelton turbine GO
Power of the Pelton turbine
Power of the Pelton turbine=mass density*Volume flow rate*Inlet relative velocity of the Pelton turbine*(1+(K factor for the Pelton*cos(Oultet bucket angle of the Pelton)))*Bucket velocity of the Pelton turbine GO
Discharge through fully sub-merged orifice
discharge through orifice=coefficient of discharging*Width*(height of liquid bottom edge-height of liquid top edge)*(sqrt(2*9.81*difference in liquid level)) GO
Discharge through large rectangular orifice
discharge through orifice=(2/3)*coefficient of discharging*Breadth*(sqrt(2*9.81))*((height of liquid bottom edge^1.5)-(height of liquid top edge^1.5)) GO
Wheel efficiency of Pelton turbine when power is given
Wheel efficiency of Pelton given the power=2*Power of the Pelton turbine/(mass density*Volume flow rate*Velocity of the Pelton jet^2) GO
Vertical distance for co-efficient of velocity and horizontal distance
Vertical distance=(Horizontal Distance^2)/(4*(coefficient of velocity^2)*head of the liquid) GO
Horizontal distance for co-efficient of velocity and vertical distance
Horizontal Distance=coefficient of velocity*(sqrt(4*Vertical distance*head of the liquid)) GO
Co-efficient of velocity for horizontal and vertical distance
coefficient of velocity=Horizontal Distance/(sqrt(4*Vertical distance*head of the liquid)) GO
Co-efficient of velocity for the head of liquid and head loss
coefficient of velocity=sqrt(1-(Head loss/head of the liquid)) GO
Loss of head due to fluid resistance
Head loss=head of the liquid*(1-(coefficient of velocity^2)) GO

1 Other formulas that calculate the same Output

Acceleration due to gravity when inlet capacity for flow depth more than 1ft 5in is given
Acceleration Due To Gravity=((inlet capacity/(0.6*Area))^2)*(1/(2*Depth)) GO

Acceleration due to gravity when area for siphon throat is given Formula

Acceleration Due To Gravity=(Volume flow rate/(coefficient of discharging*area for siphon throat))^(2)*(1/(2*head of the liquid))
g=(Q/(Cd*A))^(2)*(1/(2*H))
More formulas
Flow diversion for side weir GO
Length of weir when flow diversion is given GO
Depth of flow over weir when flow diversion is given GO
Area for siphon throat GO
Discharge when area for siphon throat is given GO
Coefficient of discharge when area for siphon throat is given GO
Head when area for siphon throat is given GO

What is siphon?

A siphon is any of a wide variety of devices that involve the flow of liquids through tubes. Pipelines called inverted siphons are used to carry sewage or stormwater under streams, highway cuts, or other depressions in the ground.

How to Calculate Acceleration due to gravity when area for siphon throat is given?

Acceleration due to gravity when area for siphon throat is given calculator uses Acceleration Due To Gravity=(Volume flow rate/(coefficient of discharging*area for siphon throat))^(2)*(1/(2*head of the liquid)) to calculate the Acceleration Due To Gravity, The Acceleration due to gravity when area for siphon throat is given formula is defined as the acceleration which is experienced by the fluid when it flows in the siphon under the influence of gravity. Acceleration Due To Gravity and is denoted by g symbol.

How to calculate Acceleration due to gravity when area for siphon throat is given using this online calculator? To use this online calculator for Acceleration due to gravity when area for siphon throat is given, enter Volume flow rate (Q), coefficient of discharging (Cd), area for siphon throat (A) and head of the liquid (H) and hit the calculate button. Here is how the Acceleration due to gravity when area for siphon throat is given calculation can be explained with given input values -> 0.05 = (1/(1*1))^(2)*(1/(2*10)).

FAQ

What is Acceleration due to gravity when area for siphon throat is given?
The Acceleration due to gravity when area for siphon throat is given formula is defined as the acceleration which is experienced by the fluid when it flows in the siphon under the influence of gravity and is represented as g=(Q/(Cd*A))^(2)*(1/(2*H)) or Acceleration Due To Gravity=(Volume flow rate/(coefficient of discharging*area for siphon throat))^(2)*(1/(2*head of the liquid)). Volume flow rate is the volume of fluid that passes per unit of time, The coefficient of discharging or efflux coefficient is the ratio of the actual discharge to the theoretical discharge, Area for siphon throat is the area of the siphon from where the discharge is released and 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 Acceleration due to gravity when area for siphon throat is given?
The Acceleration due to gravity when area for siphon throat is given formula is defined as the acceleration which is experienced by the fluid when it flows in the siphon under the influence of gravity is calculated using Acceleration Due To Gravity=(Volume flow rate/(coefficient of discharging*area for siphon throat))^(2)*(1/(2*head of the liquid)). To calculate Acceleration due to gravity when area for siphon throat is given, you need Volume flow rate (Q), coefficient of discharging (Cd), area for siphon throat (A) and head of the liquid (H). With our tool, you need to enter the respective value for Volume flow rate, coefficient of discharging, area for siphon throat and 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.
How many ways are there to calculate Acceleration Due To Gravity?
In this formula, Acceleration Due To Gravity uses Volume flow rate, coefficient of discharging, area for siphon throat and head of the liquid. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Acceleration Due To Gravity=((inlet capacity/(0.6*Area))^2)*(1/(2*Depth))
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