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Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Formula

GoResultant Force Acting on Plane Surface of Completely Submerged Plate Formula

GoResultant Force Acting on Completely Submerged Plate given Vertical Distance of Centroid Formula

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Resultant Force is defined as the total net force of various forces acting on an object. Check FAQs

F R = \sqrt{({F H}^{2}) + ({F v}^{2})}

F_R - Resultant Force?F_H - Horizontal Component of Force?F_v - Vertical Component of Force?

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Example

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Here is how the Magnitude of Resultant Hydrostatic Force Acting on Curved Surface equation looks like with Values.

Here is how the Magnitude of Resultant Hydrostatic Force Acting on Curved Surface equation looks like with Units.

Here is how the Magnitude of Resultant Hydrostatic Force Acting on Curved Surface equation looks like.

22.4404 = \sqrt{({12.48}^{2}) + ({18.65}^{2})}

22.4404N = \sqrt{({12.48N}^{2}) + ({18.65N}^{2})}

22.4404 = \sqrt{({12.48}^{2}) + ({18.65}^{2})}

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Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Solution

Follow our step by step solution on how to calculate Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

FIRST Step Consider the formula

F R = \sqrt{({F H}^{2}) + ({F v}^{2})}

Next Step Substitute values of Variables

∴

F R = \sqrt{({12.48N}^{2}) + ({18.65N}^{2})}

Next Step Prepare to Evaluate

∴

F R = \sqrt{({12.48}^{2}) + ({18.65}^{2})}

Next Step Evaluate

∴

F R = 22.4404300315301N

LAST Step Rounding Answer

∴

F R = 22.4404N

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Formula Elements

Variables

Functions

Resultant Force

Resultant Force is defined as the total net force of various forces acting on an object.

Symbol: F_R

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Resultant Force

Horizontal Component of Force

Horizontal Component of Force is the resolved force acting along the horizontal direction.

Symbol: F_H

Measurement: ForceUnit: N

Note: Value can be positive or negative.

Formulas to find Horizontal Component of Force

Vertical Component of Force

Vertical Component of Force is the resolved force acting along the vertical direction.

Symbol: F_v

Measurement: ForceUnit: N

Note: Value can be positive or negative.

Formulas to find Vertical Component of Force

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 Resultant Force

Go Resultant Force Acting on Plane Surface of Completely Submerged Plate

F R = P c \cdot A

Go Resultant Force Acting on Completely Submerged Plate given Vertical Distance of Centroid

F R = (P o + (ρ Fluid \cdot [g] \cdot h c)) \cdot (A)

Go Resultant Force Acting on Completely Submerged Plate given Intersecting Angle

F R = (P o + (ρ Fluid \cdot [g] \cdot y c \cdot \sin (θ Intersect))) \cdot (A)

Go Resultant Force Acting on Completely Submerged Rectangular Flat Plate

F R = (P o + (ρ Fluid \cdot [g] \cdot (s + (\frac{b}{2})) \cdot \sin (θ T))) \cdot (a \cdot b)

Other formulas in Hydrostatic Forces on Surfaces category

Go Absolute Pressure at any Point on Submerged Plate

P = P o + (ρ Fluid \cdot [g] \cdot h)

Go Absolute Pressure at any Point on Submerged Plate given Intersecting Angle

P = P o + (ρ Fluid \cdot [g] \cdot y \cdot \sin (θ Intersect))

Go Average Pressure given Resultant Force

P Avg = \frac{F R}{A}

How to Evaluate Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface evaluator uses Resultant Force = sqrt((Horizontal Component of Force^2)+(Vertical Component of Force^2)) to evaluate the Resultant Force, The Magnitude of Resultant Hydrostatic Force Acting on Curved Surface formula is defined as the square root of addition of the square of the horizontal and vertical Component of force. The horizontal component of the hydrostatic force acting on a curved surface is equal (in both magnitude and the line of action) to the hydrostatic force acting on the vertical projection of the curved surface. The vertical component of the hydrostatic force acting on a curved surface is equal to the hydrostatic force acting on the horizontal projection of the curved surface, plus (minus, if acting in the opposite direction) the weight of the fluid block. Resultant Force is denoted by F_R symbol.

How to evaluate Magnitude of Resultant Hydrostatic Force Acting on Curved Surface using this online evaluator? To use this online evaluator for Magnitude of Resultant Hydrostatic Force Acting on Curved Surface, enter Horizontal Component of Force (F_H) & Vertical Component of Force (F_v) and hit the calculate button.

FAQs on Magnitude of Resultant Hydrostatic Force Acting on Curved Surface

What is the formula to find Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

The formula of Magnitude of Resultant Hydrostatic Force Acting on Curved Surface is expressed as Resultant Force = sqrt((Horizontal Component of Force^2)+(Vertical Component of Force^2)). Here is an example- 22.44043 = sqrt((12.48^2)+(18.65^2)).

How to calculate Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

With Horizontal Component of Force (F_H) & Vertical Component of Force (F_v) we can find Magnitude of Resultant Hydrostatic Force Acting on Curved Surface using the formula - Resultant Force = sqrt((Horizontal Component of Force^2)+(Vertical Component of Force^2)). This formula also uses Square Root (sqrt) function(s).

What are the other ways to Calculate Resultant Force?

Here are the different ways to Calculate Resultant Force-

Resultant Force=Pressure at Centroid of Surface*Area of Surface
Resultant Force=(Absolute Pressure above Liquid+(Density of Fluid*[g]*Vertical Distance of Centroid))*(Area of Surface)
Resultant Force=(Absolute Pressure above Liquid+(Density of Fluid*[g]*Distance of the Centroid from X-Axis*sin(Intersecting Angle)))*(Area of Surface)

Can the Magnitude of Resultant Hydrostatic Force Acting on Curved Surface be negative?

No, the Magnitude of Resultant Hydrostatic Force Acting on Curved Surface, measured in Force cannot be negative.

Which unit is used to measure Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Magnitude of Resultant Hydrostatic Force Acting on Curved Surface can be measured.

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Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Formula

​GoResultant Force Acting on Plane Surface of Completely Submerged Plate Formula

​GoResultant Force Acting on Completely Submerged Plate given Vertical Distance of Centroid Formula

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Example

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Solution

Magnitude of Resultant Hydrostatic Force Acting on Curved Surface Formula Elements

Other Formulas to find Resultant Force

Other formulas in Hydrostatic Forces on Surfaces category

How to Evaluate Magnitude of Resultant Hydrostatic Force Acting on Curved Surface?

FAQs on Magnitude of Resultant Hydrostatic Force Acting on Curved Surface

Variable Name

GoResultant Force Acting on Plane Surface of Completely Submerged Plate Formula

GoResultant Force Acting on Completely Submerged Plate given Vertical Distance of Centroid Formula