Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero Calculator

✖Specific Weight of Liquid represents the force exerted by gravity on a unit volume of a fluid.ⓘ Specific Weight of Liquid [γ_f]			+10% -10%
✖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.ⓘ Cross Sectional Area of Jet [A_Jet]			+10% -10%
✖Fluid Jet Velocity is the volume of fluid flowing in the given vessel per unit cross sectional area.ⓘ Fluid Jet Velocity [v_jet]			+10% -10%

✖Force on Plate in Dir of Jet on Stat Curved Vane is any interaction that, when unopposed, will change the motion of an object in Direction of Flow of Jet on Stationary Curved Vane.ⓘ Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero [F_jet]

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Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero

Formula

`"F"_{"jet"} = (2*"γ"_{"f"}*"A"_{"Jet"}*"v"_{"jet"}^2)/"[g]"`

Example

`"345.7181N"=(2*"9.81kN/m³"*"1.2m²"*("12m/s")^2)/"[g]"`

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Download Force Exerted by Fluid Jet on Stationary Flat Plate Formulas PDF

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero Solution

STEP 0: Pre-Calculation Summary

Formula Used

Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g]
F_jet = (2*γ_f*A_Jet*v_jet^2)/[g]
This formula uses 1 Constants, 4 Variables

Constants Used

[g] - Gravitational acceleration on Earth Value Taken As 9.80665

Variables Used

Force on Plate in Dir of Jet on Stat Curved Vane - (Measured in Newton) - Force on Plate in Dir of Jet on Stat Curved Vane is any interaction that, when unopposed, will change the motion of an object in Direction of Flow of Jet on Stationary Curved Vane.
Specific Weight of Liquid - (Measured in Kilonewton per Cubic Meter) - Specific Weight of Liquid represents the force exerted by gravity on a unit volume of a fluid.
Cross Sectional Area of Jet - (Measured in Square Meter) - 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.
Fluid Jet Velocity - (Measured in Meter per Second) - Fluid Jet Velocity is the volume of fluid flowing in the given vessel per unit cross sectional area.

STEP 1: Convert Input(s) to Base Unit

Specific Weight of Liquid: 9.81 Kilonewton per Cubic Meter --> 9.81 Kilonewton per Cubic Meter No Conversion Required
Cross Sectional Area of Jet: 1.2 Square Meter --> 1.2 Square Meter No Conversion Required
Fluid Jet Velocity: 12 Meter per Second --> 12 Meter per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

F_jet = (2*γ_f*A_Jet*v_jet^2)/[g] --> (2*9.81*1.2*12^2)/[g]

Evaluating ... ...

F_jet = 345.718058664274

STEP 3: Convert Result to Output's Unit

345.718058664274 Newton --> No Conversion Required

FINAL ANSWER

345.718058664274 ≈ 345.7181 Newton <-- Force on Plate in Dir of Jet on Stat Curved Vane

(Calculation completed in 00.004 seconds)

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Created by M Naveen

National Institute of Technology (NIT), Warangal

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Coorg Institute of Technology (CIT), Coorg

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< 4 Jet Striking a Symmetrical Stationary Curved Vane at the Centre Calculators

Velocity for Force Exerted on Plate in Direction of Flow of Jet

Go Fluid Jet Velocity = sqrt((Force on Plate in Dir of Jet on Stat Curved Vane*[g])/(Specific Weight of Liquid*Cross Sectional Area of Jet*(1+cos(Half of Angle Between Two Tangent to Vane))))

Force Exerted on Plate in Direction of Flow of Jet on Stationary Curved Vane

Go Force on Plate in Dir of Jet on Stat Curved Vane = ((Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g])*(1+cos(Half of Angle Between Two Tangent to Vane))

Cross Sectional Area for Force Exerted on Plate in Direction of Flow of Jet

Go Cross Sectional Area of Jet = (Force on Plate in Dir of Jet on Stat Curved Vane*[g])/(Specific Weight of Liquid*Fluid Jet Velocity^2*(1+cos(Half of Angle Between Two Tangent to Vane)))

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero

Go Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g]

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero Formula

Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g]
F_jet = (2*γ_f*A_Jet*v_jet^2)/[g]

What is meant by Velocity?

The Velocity of an object is the rate of change of its position with respect to a frame of reference, and is a function of time.

What is a vane in fluid mechanics?

When a jet of fluid strikes a stationary vane, the vane decelerates the fluid in a given direction. Even if the speed of the fluid is unchanged, a change in direction produces changes in the velocity vectors and hence momentum forces are produced.

How to Calculate Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero?

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero calculator uses Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g] to calculate the Force on Plate in Dir of Jet on Stat Curved Vane, Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero is defined as the force induced by the fluid on the stationary plate of jet. Force on Plate in Dir of Jet on Stat Curved Vane is denoted by F_jet symbol.

How to calculate Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero using this online calculator? To use this online calculator for Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero, enter Specific Weight of Liquid (γ_f), Cross Sectional Area of Jet (A_Jet) & Fluid Jet Velocity (v_jet) and hit the calculate button. Here is how the Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero calculation can be explained with given input values -> 411980.7 = (2*9810*1.2*12^2)/[g].

FAQ

What is Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero?

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero is defined as the force induced by the fluid on the stationary plate of jet and is represented as F_jet = (2*γ_f*A_Jet*v_jet^2)/[g] or Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g]. Specific Weight of Liquid represents the force exerted by gravity on a unit volume of a fluid, 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 & Fluid Jet Velocity is the volume of fluid flowing in the given vessel per unit cross sectional area.

How to calculate Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero?

Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero is defined as the force induced by the fluid on the stationary plate of jet is calculated using Force on Plate in Dir of Jet on Stat Curved Vane = (2*Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g]. To calculate Force Exerted on Plate in Direction of Flow of Jet when Theta is Zero, you need Specific Weight of Liquid (γ_f), Cross Sectional Area of Jet (A_Jet) & Fluid Jet Velocity (v_jet). With our tool, you need to enter the respective value for Specific Weight of Liquid, Cross Sectional Area of Jet & Fluid Jet Velocity 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 Force on Plate in Dir of Jet on Stat Curved Vane?

In this formula, Force on Plate in Dir of Jet on Stat Curved Vane uses Specific Weight of Liquid, Cross Sectional Area of Jet & Fluid Jet Velocity. We can use 1 other way(s) to calculate the same, which is/are as follows -

Force on Plate in Dir of Jet on Stat Curved Vane = ((Specific Weight of Liquid*Cross Sectional Area of Jet*Fluid Jet Velocity^2)/[g])*(1+cos(Half of Angle Between Two Tangent to Vane))

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