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velagapudi ramakrishna siddhartha engineering college (vr siddhartha engineering college), vijayawada
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Weight of water delivered per second in terms of density and discharge Solution

STEP 0: Pre-Calculation Summary
Formula Used
weight_of_water = Water Density*Acceleration Due To Gravity*Discharge
WWater = ρWater*g*Q
This formula uses 3 Variables
Variables Used
Water Density - Water Density is mass per unit of water. (Measured in Kilogram per Meter³)
Acceleration Due To Gravity - The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force. (Measured in Meter per Square Second)
Discharge - Discharge is the rate of flow of a liquid (Measured in Meter³ per Second)
STEP 1: Convert Input(s) to Base Unit
Water Density: 1000 Kilogram per Meter³ --> 1000 Kilogram per Meter³ No Conversion Required
Acceleration Due To Gravity: 9.8 Meter per Square Second --> 9.8 Meter per Square Second No Conversion Required
Discharge: 1 Meter³ per Second --> 1 Meter³ per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
WWater = ρWater*g*Q --> 1000*9.8*1
Evaluating ... ...
WWater = 9800
STEP 3: Convert Result to Output's Unit
9800 Kilogram -->9800000 Gram (Check conversion here)
FINAL ANSWER
9800000 Gram <-- Weight of water
(Calculation completed in 00.000 seconds)

10+ Reciprocating pumps Calculators

Power required to drive the double acting reciprocating pump
power_required = 2*Specific Weight*Area of piston*Length of stroke*Speed*(Height of the centre of the cylinder+Height to which the liquid is raised)/60000 Go
Power required to drive the pump
power_kw = Specific Weight*Area of piston*Length of stroke*Speed*(Height of the centre of the cylinder+Height to which the liquid is raised)/60000 Go
Weight of water delivered in terms of area, stroke length and speed
weight_of_liquid = Specific Weight*Area of piston*Length of stroke*Speed/60 Go
Slip percentage
slip_percentage = (1-(Actual discharge of a pump/Theoretical discharge of a pump))*100 Go
Co-efficient of discharge of pump
coefficient_of_discharge = Actual discharge/Theoretical discharge Go
Cross sectional area of piston given volume of liquid
area_of_piston = Volume of liquid sucked/Length of stroke Go
Length of the stroke given volume of liquid
Length_of_stroke = Volume of liquid sucked/Area of piston Go
Slip of the pump
pump_slippage = Theoretical discharge-Actual discharge Go
Weight of water delivered per second
weight_of_liquid = Specific Weight*Discharge Go
Slip Percentage in terms of coefficient of discharge
slip_percentage = (1-Coefficient of Discharge)*100 Go

Weight of water delivered per second in terms of density and discharge Formula

weight_of_water = Water Density*Acceleration Due To Gravity*Discharge
WWater = ρWater*g*Q

What is principle of reciprocating pump?

Reciprocating Pump is a Positive Displacement type pump that works on the principle of movement of the piston in forwarding and backward directions whereas the Centrifugal pump uses the kinetic energy of the impeller to supply the liquid from one place to another place.

What is the weight of water called?

Density is just the weight for a chosen amount (volume) of the material. A common unit of measurement for water's density is gram per milliliter (1 g/ml) or 1 gram per cubic centimeter (1 g/cm3).

How to Calculate Weight of water delivered per second in terms of density and discharge?

Weight of water delivered per second in terms of density and discharge calculator uses weight_of_water = Water Density*Acceleration Due To Gravity*Discharge to calculate the Weight of water, The Weight of water delivered per second in terms of density and discharge formula is defined as the product of discharge and specific weight. Weight of water is denoted by WWater symbol.

How to calculate Weight of water delivered per second in terms of density and discharge using this online calculator? To use this online calculator for Weight of water delivered per second in terms of density and discharge, enter Water Density Water), Acceleration Due To Gravity (g) & Discharge (Q) and hit the calculate button. Here is how the Weight of water delivered per second in terms of density and discharge calculation can be explained with given input values -> 9.800E+6 = 1000*9.8*1.

FAQ

What is Weight of water delivered per second in terms of density and discharge?
The Weight of water delivered per second in terms of density and discharge formula is defined as the product of discharge and specific weight and is represented as WWater = ρWater*g*Q or weight_of_water = Water Density*Acceleration Due To Gravity*Discharge. Water Density is mass per unit of water, The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force & Discharge is the rate of flow of a liquid.
How to calculate Weight of water delivered per second in terms of density and discharge?
The Weight of water delivered per second in terms of density and discharge formula is defined as the product of discharge and specific weight is calculated using weight_of_water = Water Density*Acceleration Due To Gravity*Discharge. To calculate Weight of water delivered per second in terms of density and discharge, you need Water Density Water), Acceleration Due To Gravity (g) & Discharge (Q). With our tool, you need to enter the respective value for Water Density, Acceleration Due To Gravity & Discharge 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 Weight of water?
In this formula, Weight of water uses Water Density, Acceleration Due To Gravity & Discharge. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • weight_of_liquid = Specific Weight*Discharge
  • power_kw = Specific Weight*Area of piston*Length of stroke*Speed*(Height of the centre of the cylinder+Height to which the liquid is raised)/60000
  • area_of_piston = Volume of liquid sucked/Length of stroke
  • Length_of_stroke = Volume of liquid sucked/Area of piston
  • weight_of_liquid = Specific Weight*Area of piston*Length of stroke*Speed/60
  • power_required = 2*Specific Weight*Area of piston*Length of stroke*Speed*(Height of the centre of the cylinder+Height to which the liquid is raised)/60000
  • coefficient_of_discharge = Actual discharge/Theoretical discharge
  • pump_slippage = Theoretical discharge-Actual discharge
  • slip_percentage = (1-Coefficient of Discharge)*100
  • slip_percentage = (1-(Actual discharge of a pump/Theoretical discharge of a pump))*100
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