FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Acceleration in X Direction given Average Velocity in Nozzle Formula

GoAcceleration in X Direction in Nozzle given Inlet and Outlet Velocity Formula

Fx Copy

LaTeX Copy

Acceleration in X Direction is the net acceleration in x direction. Check FAQs

a x = \frac{U outlet - U inlet}{\frac{ΔX}{U Avg}}

a_x - Acceleration in X Direction?U_outlet - Outlet Velocity?U_inlet - Inlet Velocity?ΔX - Length of Nozzle?U_Avg - Average Velocity?

Acceleration in X Direction given Average Velocity in Nozzle Example

With values

With units

Only example

Here is how the Acceleration in X Direction given Average Velocity in Nozzle equation looks like with Values.

Here is how the Acceleration in X Direction given Average Velocity in Nozzle equation looks like with Units.

Here is how the Acceleration in X Direction given Average Velocity in Nozzle equation looks like.

1.176 = \frac{2.13 - 1.95}{\frac{0.3}{1.96}}

1.176m/s² = \frac{2.13m/s - 1.95m/s}{\frac{0.3m}{1.96m/s}}

1.176 = \frac{2.13 - 1.95}{\frac{0.3}{1.96}}

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Engineering » Category

Chemical Engineering » Category

Fluid Dynamics » fx Acceleration in X Direction given Average Velocity in Nozzle

Acceleration in X Direction given Average Velocity in Nozzle Solution

Follow our step by step solution on how to calculate Acceleration in X Direction given Average Velocity in Nozzle?

FIRST Step Consider the formula

a x = \frac{U outlet - U inlet}{\frac{ΔX}{U Avg}}

Next Step Substitute values of Variables

∴

a x = \frac{2.13m/s - 1.95m/s}{\frac{0.3m}{1.96m/s}}

Next Step Prepare to Evaluate

∴

a x = \frac{2.13 - 1.95}{\frac{0.3}{1.96}}

LAST Step Evaluate

∴

a x = 1.176m/s²

Acceleration in X Direction given Average Velocity in Nozzle Formula Elements

Variables

Acceleration in X Direction

Acceleration in X Direction is the net acceleration in x direction.

Symbol: a_x

Measurement: AccelerationUnit: m/s²

Note: Value can be positive or negative.

Formulas to find Acceleration in X Direction

Outlet Velocity

Outlet Velocity is defined as the velocity of fluid coming out of the vessel or nozzle.

Symbol: U_outlet

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Outlet Velocity

Inlet Velocity

Inlet Velocity is defined as the velocity of fluid going in the vessel or nozzle.

Symbol: U_inlet

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Inlet Velocity

Length of Nozzle

Length of Nozzle is defined as the length of the nozzle in which the fluid is flowing.

Symbol: ΔX

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Length of Nozzle

Average Velocity

Average Velocity is defined as the ratio of the total distance travelled in a specified direction to the total time taken by the body to travel the distance.

Symbol: U_Avg

Measurement: SpeedUnit: m/s

Note: Value can be positive or negative.

Formulas to find Average Velocity

Other Formulas to find Acceleration in X Direction

Go Acceleration in X Direction in Nozzle given Inlet and Outlet Velocity

a x = \frac{({U outlet}^{2}) - ({U inlet}^{2})}{2 \cdot ΔX}

Other formulas in Fluid Kinematics category

Go Inlet Velocity in Nozzle given Inlet Area of Nozzle

U inlet = \frac{V Flow}{A inlet}

Go Inlet Velocity in Nozzle given Inlet Diameter of Nozzle

U inlet = \frac{4 \cdot V Flow}{π \cdot ({D inlet}^{2})}

Go Inlet Area of Nozzle given Diameter of Nozzle

A inlet = π \cdot (\frac{{D inlet}^{2}}{4})

Go Inlet Area given Inlet Velocity of Fluid in Nozzle

A inlet = \frac{V Flow}{U inlet}

How to Evaluate Acceleration in X Direction given Average Velocity in Nozzle?

Acceleration in X Direction given Average Velocity in Nozzle evaluator uses Acceleration in X Direction = (Outlet Velocity-Inlet Velocity)/(Length of Nozzle/Average Velocity) to evaluate the Acceleration in X Direction, The Acceleration in X Direction given Average Velocity in Nozzle formula is defined as the function of outlet velocity and inlet velocity of fluid, length of nozzle and average of the outlet and inlet velocities. Fluid particles are accelerated through the nozzle at nearly five times the acceleration of gravity (almost five g’s)! This simple example clearly illustrates that the acceleration of a fluid particle can be nonzero, even in steady flow. Note that the acceleration is actually a point function, whereas we have estimated a simple average acceleration through the entire nozzle. Acceleration in X Direction is denoted by a_x symbol.

How to evaluate Acceleration in X Direction given Average Velocity in Nozzle using this online evaluator? To use this online evaluator for Acceleration in X Direction given Average Velocity in Nozzle, enter Outlet Velocity (U_outlet), Inlet Velocity (U_inlet), Length of Nozzle (ΔX) & Average Velocity (U_Avg) and hit the calculate button.

FAQs on Acceleration in X Direction given Average Velocity in Nozzle

What is the formula to find Acceleration in X Direction given Average Velocity in Nozzle?

The formula of Acceleration in X Direction given Average Velocity in Nozzle is expressed as Acceleration in X Direction = (Outlet Velocity-Inlet Velocity)/(Length of Nozzle/Average Velocity). Here is an example- 1.176 = (2.13-1.95)/(0.3/1.96).

How to calculate Acceleration in X Direction given Average Velocity in Nozzle?

With Outlet Velocity (U_outlet), Inlet Velocity (U_inlet), Length of Nozzle (ΔX) & Average Velocity (U_Avg) we can find Acceleration in X Direction given Average Velocity in Nozzle using the formula - Acceleration in X Direction = (Outlet Velocity-Inlet Velocity)/(Length of Nozzle/Average Velocity).

What are the other ways to Calculate Acceleration in X Direction?

Here are the different ways to Calculate Acceleration in X Direction-

Acceleration in X Direction=((Outlet Velocity^2)-(Inlet Velocity^2))/(2*Length of Nozzle)

Can the Acceleration in X Direction given Average Velocity in Nozzle be negative?

Yes, the Acceleration in X Direction given Average Velocity in Nozzle, measured in Acceleration can be negative.

Which unit is used to measure Acceleration in X Direction given Average Velocity in Nozzle?

Acceleration in X Direction given Average Velocity in Nozzle is usually measured using the Meter per Square Second[m/s²] for Acceleration. Kilometer per Square Second[m/s²], Micrometer per Square Second[m/s²], Mile per Square Second[m/s²] are the few other units in which Acceleration in X Direction given Average Velocity in Nozzle can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

: Value
: Unit

Acceleration in X Direction given Average Velocity in Nozzle Formula

​GoAcceleration in X Direction in Nozzle given Inlet and Outlet Velocity Formula

Acceleration in X Direction given Average Velocity in Nozzle Example

Acceleration in X Direction given Average Velocity in Nozzle Solution

Acceleration in X Direction given Average Velocity in Nozzle Formula Elements

Other Formulas to find Acceleration in X Direction

Other formulas in Fluid Kinematics category

How to Evaluate Acceleration in X Direction given Average Velocity in Nozzle?

FAQs on Acceleration in X Direction given Average Velocity in Nozzle

Variable Name

GoAcceleration in X Direction in Nozzle given Inlet and Outlet Velocity Formula