Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
Maiarutselvan V has created this Calculator and 300+ more calculators!
Sai Venkata Phanindra Chary Arendra
Vallurupalli Nageswara Rao Vignana Jyothi Institute of Engineering and Technology (VNRVJIET), Hyderabad
Sai Venkata Phanindra Chary Arendra has verified this Calculator and 100+ more calculators!

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
Co-efficient of discharge considering time for emptying a tank
coefficient of discharging=(2*area of tank*((sqrt(initial height of liquid))-(sqrt(final height of liquid))))/(Total Time Taken*area of orifice*sqrt(2*9.81)) GO
Time of emptying a tank through an orifice at bottom
Total Time Taken=(2*area of tank*((sqrt(initial height of liquid))-(sqrt(final height of liquid))))/(coefficient of discharging*area of orifice*sqrt(2*9.81)) 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
The velocity of the fluid particle
Velocity of the fluid particle=Displacement/Total Time Taken GO
Co-efficient of contraction
coefficient of contraction=area of jet m/area of orifice GO
Average Speed
Average Speed=Total Distance Traveled/Total Time Taken GO
Angular Speed
Angular Speed=Angular Displacement/Total Time Taken GO
Acceleration
Acceleration=Change in Velocity/Total Time Taken GO
Electric Current when Charge and Time are Given
Electric Current=Charge/Total Time Taken GO

Area of tank while considering time for emptying a tank Formula

area of tank=(Total Time Taken*coefficient of discharging*area of orifice*(sqrt(2*9.81)))/(2*((sqrt(initial height of liquid))-(sqrt(final height of liquid))))
A=(t*Cd*a*(sqrt(2*9.81)))/(2*((sqrt(H 1))-(sqrt(H 2))))
More formulas
Co-efficient of discharge GO
Co-efficient of discharge for area and velocity GO
Theoretical velocity GO
Co-efficient of contraction GO
Co-efficient of velocity GO
Head of the liquid above the centre of orifice GO
Co-efficient of velocity for horizontal and vertical distance GO
Loss of head due to fluid resistance GO
Head of liquid for head loss and coefficient of velocity GO
Co-efficient of velocity for the head of liquid and head loss GO
Discharge through large rectangular orifice GO
Horizontal distance for co-efficient of velocity and vertical distance GO
Vertical distance for co-efficient of velocity and horizontal distance GO
Discharge through fully sub-merged orifice GO
Discharge through partially sub-merged orifice GO
Time of emptying a tank through an orifice at bottom GO
Co-efficient of discharge considering time for emptying a tank GO
Time of emptying a hemispherical tank GO
Co-efficient of discharge considering time of emptying a hemispherical tank GO
Area of orifice considering time of emptying a hemispherical tank GO
Time of emptying a circular horizontal tank GO
Co-efficient of discharge considering time of emptying a circular horizontal tank GO
Loss of head due to sudden enlargement GO
Absolute pressure head at constant head and atmospheric pressure head GO
Atmospheric pressure head at constant head and absolute pressure head GO
Velocity of liquid at C-C for Hc, Ha, and H GO
Discharge in the convergent-divergent mouthpiece GO
Area at vena contracta for discharge and constant head GO
Discharge In Borda's mouthpiece running full GO
Area of mouthpiece In Borda's mouthpiece running full GO
Discharge In Borda's mouthpiece running free GO
Area of mouthpiece In Borda's mouthpiece running free GO

What is coefficient of discharge?

The coefficient of discharge is defined as the ratio of the actual discharge from an orifice to the theoretical discharge from the orifice.

What is an orifice?

The orifice is defined as the small opening on the side or bottom of a tank through which any kind of fluid is flowing. The opening can be circular, triangular, or rectangular in cross-section and they are named on the basis of shape accordingly.

How to Calculate Area of tank while considering time for emptying a tank?

Area of tank while considering time for emptying a tank calculator uses area of tank=(Total Time Taken*coefficient of discharging*area of orifice*(sqrt(2*9.81)))/(2*((sqrt(initial height of liquid))-(sqrt(final height of liquid)))) to calculate the area of tank, The Area of tank while considering time for emptying a tank formula is known while considering a tank containing some liquid up to a height of H 1. Let T be the time taken for emptying the tank through an orifice at the bottom and 'A' is the area of the tank. area of tank and is denoted by A symbol.

How to calculate Area of tank while considering time for emptying a tank using this online calculator? To use this online calculator for Area of tank while considering time for emptying a tank, enter Total Time Taken (t), coefficient of discharging (Cd), area of orifice (a), initial height of liquid (H 1) and final height of liquid (H 2) and hit the calculate button. Here is how the Area of tank while considering time for emptying a tank calculation can be explained with given input values -> NaN = (80*1*10*(sqrt(2*9.81)))/(2*((sqrt(10))-(sqrt(10)))).

FAQ

What is Area of tank while considering time for emptying a tank?
The Area of tank while considering time for emptying a tank formula is known while considering a tank containing some liquid up to a height of H 1. Let T be the time taken for emptying the tank through an orifice at the bottom and 'A' is the area of the tank and is represented as A=(t*Cd*a*(sqrt(2*9.81)))/(2*((sqrt(H 1))-(sqrt(H 2)))) or area of tank=(Total Time Taken*coefficient of discharging*area of orifice*(sqrt(2*9.81)))/(2*((sqrt(initial height of liquid))-(sqrt(final height of liquid)))). Total Time Taken is the total time taken by the body to cover that space, The coefficient of discharging or efflux coefficient is the ratio of the actual discharge to the theoretical discharge, The area of orifice is often a pipe or tube of varying cross-sectional area, and it can be used to direct or modify the flow of a fluid (liquid or gas), The initial height of liquid is a variable from the tank emptying through an orifice at its bottom and The final height of liquid is a variable from the tank emptying through an orifice at its bottom.
How to calculate Area of tank while considering time for emptying a tank?
The Area of tank while considering time for emptying a tank formula is known while considering a tank containing some liquid up to a height of H 1. Let T be the time taken for emptying the tank through an orifice at the bottom and 'A' is the area of the tank is calculated using area of tank=(Total Time Taken*coefficient of discharging*area of orifice*(sqrt(2*9.81)))/(2*((sqrt(initial height of liquid))-(sqrt(final height of liquid)))). To calculate Area of tank while considering time for emptying a tank, you need Total Time Taken (t), coefficient of discharging (Cd), area of orifice (a), initial height of liquid (H 1) and final height of liquid (H 2). With our tool, you need to enter the respective value for Total Time Taken, coefficient of discharging, area of orifice, initial height of liquid and final height of 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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