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Velocity of water in suction and delivery pipes due to acceleration or retardation Formula

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Velocity is the speed at which a single acting pump's piston moves, affecting the pump's overall efficiency and fluid displacement. Check FAQs

v = (\frac{A}{a s}) \cdot (ω \cdot r \cdot \sin (θ crnk))

v - Velocity?A - Area of cylinder?a_s - Area of Suction Pipe?ω - Angular Velocity?r - Radius of crank?θ_crnk - Angle turned by crank?

Velocity of water in suction and delivery pipes due to acceleration or retardation Example

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Here is how the Velocity of water in suction and delivery pipes due to acceleration or retardation equation looks like with Values.

Here is how the Velocity of water in suction and delivery pipes due to acceleration or retardation equation looks like with Units.

Here is how the Velocity of water in suction and delivery pipes due to acceleration or retardation equation looks like.

0.0801 = (\frac{0.6}{0.39}) \cdot (2.5 \cdot 0.09 \cdot \sin (12.8))

0.0801m/s = (\frac{0.6m²}{0.39m²}) \cdot (2.5rad/s \cdot 0.09m \cdot \sin (12.8rad))

0.0801 = (\frac{0.6}{0.39}) \cdot (2.5 \cdot 0.09 \cdot \sin (12.8))

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Velocity of water in suction and delivery pipes due to acceleration or retardation Solution

Follow our step by step solution on how to calculate Velocity of water in suction and delivery pipes due to acceleration or retardation?

FIRST Step Consider the formula

v = (\frac{A}{a s}) \cdot (ω \cdot r \cdot \sin (θ crnk))

Next Step Substitute values of Variables

∴

v = (\frac{0.6m²}{0.39m²}) \cdot (2.5rad/s \cdot 0.09m \cdot \sin (12.8rad))

Next Step Prepare to Evaluate

∴

v = (\frac{0.6}{0.39}) \cdot (2.5 \cdot 0.09 \cdot \sin (12.8))

Next Step Evaluate

∴

v = 0.0801380163813019m/s

LAST Step Rounding Answer

∴

v = 0.0801m/s

Velocity of water in suction and delivery pipes due to acceleration or retardation Formula Elements

Variables

Functions

Velocity

Velocity is the speed at which a single acting pump's piston moves, affecting the pump's overall efficiency and fluid displacement.

Symbol: v

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Velocity

Area of cylinder

Area of cylinder is the area of the circular base of a cylinder, used to calculate the volume of a single acting pump.

Symbol: A

Measurement: AreaUnit: m²

Note: Value can be positive or negative.

Formulas to find Area of cylinder

Area of Suction Pipe

Area of Suction Pipe is the cross-sectional area of the pipe that connects the pump to the suction source in a single acting pump system.

Symbol: a_s

Measurement: AreaUnit: m²

Note: Value can be positive or negative.

Formulas to find Area of Suction Pipe

Angular Velocity

Angular Velocity is the measure of how fast the pump's crankshaft rotates, determining the pump's speed and efficiency in a single acting pump system.

Symbol: ω

Measurement: Angular VelocityUnit: rad/s

Note: Value can be positive or negative.

Formulas to find Angular Velocity

Radius of crank

Radius of crank is the distance from the axis of rotation to the point where the connecting rod is attached in a single acting pump.

Symbol: r

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius of crank

Angle turned by crank

Angle turned by crank is the rotation of the crankshaft in a single acting pump that converts rotary motion into reciprocating motion.

Symbol: θ_crnk

Measurement: AngleUnit: rad

Note: Value can be positive or negative.

Formulas to find Angle turned by crank

sin

Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse.

Syntax: sin(Angle)

Other formulas in Single Acting Pumps category

Go Work Done by Single-acting Pump considering all Head Losses

W fd = (SW \cdot A \cdot L \cdot \frac{N}{60}) \cdot (h s + h del + ((\frac{2}{3}) \cdot h fs) + ((\frac{2}{3}) \cdot h fd))

Go Work done against friction in suction pipe

W fs = (\frac{2}{3}) \cdot L \cdot h fs

Go Work done against friction in delivery pipe

W fd = (\frac{2}{3}) \cdot L \cdot h fd

Go Work Done by Single Acting Pump due to Friction in Suction and Delivery Pipes

W fs = (\frac{ρ \cdot [g] \cdot A \cdot L \cdot N}{60}) \cdot (h s + h del + 0.66 \cdot h fs + 0.66 \cdot h fd)

How to Evaluate Velocity of water in suction and delivery pipes due to acceleration or retardation?

Velocity of water in suction and delivery pipes due to acceleration or retardation evaluator uses Velocity = (Area of cylinder/Area of Suction Pipe)*(Angular Velocity*Radius of crank*sin(Angle turned by crank)) to evaluate the Velocity, Velocity of water in suction and delivery pipes due to acceleration or retardation formula is defined as the measure of the velocity of water flowing through suction and delivery pipes of a reciprocating pump, which is affected by the acceleration or retardation of the pump's motion. Velocity is denoted by v symbol.

How to evaluate Velocity of water in suction and delivery pipes due to acceleration or retardation using this online evaluator? To use this online evaluator for Velocity of water in suction and delivery pipes due to acceleration or retardation, enter Area of cylinder (A), Area of Suction Pipe (a_s), Angular Velocity (ω), Radius of crank (r) & Angle turned by crank (θ_crnk) and hit the calculate button.

FAQs on Velocity of water in suction and delivery pipes due to acceleration or retardation

What is the formula to find Velocity of water in suction and delivery pipes due to acceleration or retardation?

The formula of Velocity of water in suction and delivery pipes due to acceleration or retardation is expressed as Velocity = (Area of cylinder/Area of Suction Pipe)*(Angular Velocity*Radius of crank*sin(Angle turned by crank)). Here is an example- 0.080138 = (0.6/0.39)*(2.5*0.09*sin(12.8)).

How to calculate Velocity of water in suction and delivery pipes due to acceleration or retardation?

With Area of cylinder (A), Area of Suction Pipe (a_s), Angular Velocity (ω), Radius of crank (r) & Angle turned by crank (θ_crnk) we can find Velocity of water in suction and delivery pipes due to acceleration or retardation using the formula - Velocity = (Area of cylinder/Area of Suction Pipe)*(Angular Velocity*Radius of crank*sin(Angle turned by crank)). This formula also uses Sine (sin) function(s).

Can the Velocity of water in suction and delivery pipes due to acceleration or retardation be negative?

Yes, the Velocity of water in suction and delivery pipes due to acceleration or retardation, measured in Speed can be negative.

Which unit is used to measure Velocity of water in suction and delivery pipes due to acceleration or retardation?

Velocity of water in suction and delivery pipes due to acceleration or retardation is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Velocity of water in suction and delivery pipes due to acceleration or retardation can be measured.

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Velocity of water in suction and delivery pipes due to acceleration or retardation Formula

Velocity of water in suction and delivery pipes due to acceleration or retardation Example

Velocity of water in suction and delivery pipes due to acceleration or retardation Solution

Velocity of water in suction and delivery pipes due to acceleration or retardation Formula Elements

Other formulas in Single Acting Pumps category

How to Evaluate Velocity of water in suction and delivery pipes due to acceleration or retardation?

FAQs on Velocity of water in suction and delivery pipes due to acceleration or retardation

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