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Absolute Velocity for given Normal Thrust Normal to Direction of Jet Formula

GoAbsolute Velocity for Mass of Fluid Striking Plate Formula

GoAbsolute velocity for dynamic thrust exerted by jet on plate Formula

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Absolute Velocity of Issuing Jet is actual velocity of jet used in propeller. Check FAQs

V absolute = (\sqrt{\frac{Ft \cdot G}{γ f \cdot A Jet \cdot (∠D \cdot (\frac{180}{π})) \cdot \cos (θ)}}) + v

V_absolute - Absolute Velocity of Issuing Jet?Ft - Thrust Force?G - Specific Gravity of Fluid?γ_f - Specific Weight of Liquid?A_Jet - Cross Sectional Area of Jet?∠D - Angle between Jet and Plate?θ - Theta?v - Velocity of Jet?π - Archimedes' constant?

Absolute Velocity for given Normal Thrust Normal to Direction of Jet Example

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Here is how the Absolute Velocity for given Normal Thrust Normal to Direction of Jet equation looks like with Values.

Here is how the Absolute Velocity for given Normal Thrust Normal to Direction of Jet equation looks like with Units.

Here is how the Absolute Velocity for given Normal Thrust Normal to Direction of Jet equation looks like.

16.3673 = (\sqrt{\frac{0.5 \cdot 10}{9.81 \cdot 1.2 \cdot (11 \cdot (\frac{180}{3.1416})) \cdot \cos (30)}}) + 9.69

16.3673m/s = (\sqrt{\frac{0.5kN \cdot 10}{9.81kN/m³ \cdot 1.2m² \cdot (11° \cdot (\frac{180}{3.1416})) \cdot \cos (30°)}}) + 9.69m/s

16.3673 = (\sqrt{\frac{0.5 \cdot 10}{9.81 \cdot 1.2 \cdot (11 \cdot (\frac{180}{3.1416})) \cdot \cos (30)}}) + 9.69

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Absolute Velocity for given Normal Thrust Normal to Direction of Jet Solution

Follow our step by step solution on how to calculate Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

FIRST Step Consider the formula

V absolute = (\sqrt{\frac{Ft \cdot G}{γ f \cdot A Jet \cdot (∠D \cdot (\frac{180}{π})) \cdot \cos (θ)}}) + v

Next Step Substitute values of Variables

∴

V absolute = (\sqrt{\frac{0.5kN \cdot 10}{9.81kN/m³ \cdot 1.2m² \cdot (11° \cdot (\frac{180}{π})) \cdot \cos (30°)}}) + 9.69m/s

Next Step Substitute values of Constants

∴

V absolute = (\sqrt{\frac{0.5kN \cdot 10}{9.81kN/m³ \cdot 1.2m² \cdot (11° \cdot (\frac{180}{3.1416})) \cdot \cos (30°)}}) + 9.69m/s

Next Step Convert Units

∴

V absolute = (\sqrt{\frac{500N \cdot 10}{9.81kN/m³ \cdot 1.2m² \cdot (0.192rad \cdot (\frac{180}{3.1416})) \cdot \cos (0.5236rad)}}) + 9.69m/s

Next Step Prepare to Evaluate

∴

V absolute = (\sqrt{\frac{500 \cdot 10}{9.81 \cdot 1.2 \cdot (0.192 \cdot (\frac{180}{3.1416})) \cdot \cos (0.5236)}}) + 9.69

Next Step Evaluate

∴

V absolute = 16.367258921457m/s

LAST Step Rounding Answer

∴

V absolute = 16.3673m/s

Absolute Velocity for given Normal Thrust Normal to Direction of Jet Formula Elements

Variables

Constants

Functions

Absolute Velocity of Issuing Jet

Absolute Velocity of Issuing Jet is actual velocity of jet used in propeller.

Symbol: V_absolute

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Absolute Velocity of Issuing Jet

Thrust Force

Thrust Force acting perpendicular to the job piece.

Symbol: Ft

Measurement: ForceUnit: kN

Note: Value should be greater than 0.

Formulas to find Thrust Force

Specific Gravity of Fluid

Specific Gravity of Fluid is the ratio of the specific weight of a substance to the specific weight of a standard fluid.

Symbol: G

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Specific Gravity of Fluid

Specific Weight of Liquid

The Specific Weight of Liquid refers to the weight per unit volume of that substance.

Symbol: γ_f

Measurement: Specific WeightUnit: kN/m³

Note: Value should be greater than 0.

Formulas to find Specific Weight of Liquid

Cross Sectional Area of Jet

Cross Sectional Area of Jet is the area of a two-dimensional shape that is obtained when a three-dimensional shape is sliced perpendicular to some specified axis at a point.

Symbol: A_Jet

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Cross Sectional Area of Jet

Angle between Jet and Plate

Angle between Jet and Plate is the space between two intersecting lines or surfaces at or close to the point where they meet.

Symbol: ∠D

Measurement: AngleUnit: °

Note: Value can be positive or negative.

Formulas to find Angle between Jet and Plate

Theta

Theta is an angle that can be defined as the figure formed by two rays meeting at a common endpoint.

Symbol: θ

Measurement: AngleUnit: °

Note: Value can be positive or negative.

Formulas to find Theta

Velocity of Jet

Velocity of Jet can be described as the movement of the plate in meters per second.

Symbol: v

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Velocity of Jet

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

cos

Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.

Syntax: cos(Angle)

sqrt

A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.

Syntax: sqrt(Number)

Other Formulas to find Absolute Velocity of Issuing Jet

Go Absolute Velocity for Mass of Fluid Striking Plate

V absolute = (\frac{m f \cdot G}{γ f \cdot A Jet}) + v

Go Absolute velocity for dynamic thrust exerted by jet on plate

V absolute = (\sqrt{\frac{m f \cdot G}{γ f \cdot A Jet \cdot (∠D \cdot (\frac{180}{π}))}}) + v

How to Evaluate Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

Absolute Velocity for given Normal Thrust Normal to Direction of Jet evaluator uses Absolute Velocity of Issuing Jet = (sqrt((Thrust Force*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet*(Angle between Jet and Plate*(180/pi))*cos(Theta))))+Velocity of Jet to evaluate the Absolute Velocity of Issuing Jet, The Absolute Velocity for given Normal Thrust Normal to Direction of Jet is the rate of change of its position with respect to a frame of reference and is a function of time. Absolute Velocity of Issuing Jet is denoted by V_absolute symbol.

How to evaluate Absolute Velocity for given Normal Thrust Normal to Direction of Jet using this online evaluator? To use this online evaluator for Absolute Velocity for given Normal Thrust Normal to Direction of Jet, enter Thrust Force (Ft), Specific Gravity of Fluid (G), Specific Weight of Liquid (γ_f), Cross Sectional Area of Jet (A_Jet), Angle between Jet and Plate (∠D), Theta (θ) & Velocity of Jet (v) and hit the calculate button.

FAQs on Absolute Velocity for given Normal Thrust Normal to Direction of Jet

What is the formula to find Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

The formula of Absolute Velocity for given Normal Thrust Normal to Direction of Jet is expressed as Absolute Velocity of Issuing Jet = (sqrt((Thrust Force*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet*(Angle between Jet and Plate*(180/pi))*cos(Theta))))+Velocity of Jet. Here is an example- 16.36726 = (sqrt((500*10)/(9810*1.2*(0.19198621771934*(180/pi))*cos(0.5235987755982))))+9.69.

How to calculate Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

With Thrust Force (Ft), Specific Gravity of Fluid (G), Specific Weight of Liquid (γ_f), Cross Sectional Area of Jet (A_Jet), Angle between Jet and Plate (∠D), Theta (θ) & Velocity of Jet (v) we can find Absolute Velocity for given Normal Thrust Normal to Direction of Jet using the formula - Absolute Velocity of Issuing Jet = (sqrt((Thrust Force*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet*(Angle between Jet and Plate*(180/pi))*cos(Theta))))+Velocity of Jet. This formula also uses Archimedes' constant and , Cosine (cos), Square Root (sqrt) function(s).

What are the other ways to Calculate Absolute Velocity of Issuing Jet?

Here are the different ways to Calculate Absolute Velocity of Issuing Jet-

Absolute Velocity of Issuing Jet=((Fluid Mass*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet))+Velocity of Jet
Absolute Velocity of Issuing Jet=(sqrt((Fluid Mass*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet*(Angle between Jet and Plate*(180/pi)))))+Velocity of Jet
Absolute Velocity of Issuing Jet=sqrt((Thrust Force*Specific Gravity of Fluid)/(Specific Weight of Liquid*Cross Sectional Area of Jet*(Angle between Jet and Plate*(180/pi))^2))+Velocity of Jet

Can the Absolute Velocity for given Normal Thrust Normal to Direction of Jet be negative?

Yes, the Absolute Velocity for given Normal Thrust Normal to Direction of Jet, measured in Speed can be negative.

Which unit is used to measure Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

Absolute Velocity for given Normal Thrust Normal to Direction of Jet 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 Absolute Velocity for given Normal Thrust Normal to Direction of Jet can be measured.

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Absolute Velocity for given Normal Thrust Normal to Direction of Jet Formula

​GoAbsolute Velocity for Mass of Fluid Striking Plate Formula

​GoAbsolute velocity for dynamic thrust exerted by jet on plate Formula

Absolute Velocity for given Normal Thrust Normal to Direction of Jet Example

Absolute Velocity for given Normal Thrust Normal to Direction of Jet Solution

Absolute Velocity for given Normal Thrust Normal to Direction of Jet Formula Elements

Other Formulas to find Absolute Velocity of Issuing Jet

How to Evaluate Absolute Velocity for given Normal Thrust Normal to Direction of Jet?

FAQs on Absolute Velocity for given Normal Thrust Normal to Direction of Jet

Variable Name

GoAbsolute Velocity for Mass of Fluid Striking Plate Formula

GoAbsolute velocity for dynamic thrust exerted by jet on plate Formula