Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant Formula

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Bed width of distance x. the physical confine of the normal water flow. Check FAQs
x=LfBc32Bc32-Bf32(1-(BfBx)32)
x - Bed Width of Distance X?Lf - Length of Transition?Bc - Nominal Bed Width of the Normal Channel Section?Bf - Bed Width of Flumed Channel Section?Bx - Bed Width at Any Distance X from Flumed Section?

Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant Example

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Here is how the Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant equation looks like with Values.

Here is how the Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant equation looks like with Units.

Here is how the Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant equation looks like.

3.082Edit=15Edit35Edit3235Edit32-10Edit32(1-(10Edit11.36Edit)32)
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Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant Solution

Follow our step by step solution on how to calculate Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant?

FIRST Step Consider the formula
x=LfBc32Bc32-Bf32(1-(BfBx)32)
Next Step Substitute values of Variables
x=15m35m3235m32-10m32(1-(10m11.36)32)
Next Step Prepare to Evaluate
x=1535323532-1032(1-(1011.36)32)
Next Step Evaluate
x=3.08204903700009m
LAST Step Rounding Answer
x=3.082m

Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant Formula Elements

Variables
Bed Width of Distance X
Bed width of distance x. the physical confine of the normal water flow.
Symbol: x
Measurement: LengthUnit: m
Note: Value can be positive or negative.
Length of Transition
Length of transition is the distance required in transitioning the road from normal to full super elevation.
Symbol: Lf
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Nominal Bed Width of the Normal Channel Section
Nominal bed width of the normal channel section.
Symbol: Bc
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Bed Width of Flumed Channel Section
Bed width of flumed channel section.
Symbol: Bf
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Bed Width at Any Distance X from Flumed Section
Bed width at any distance x from flumed section.
Symbol: Bx
Measurement: NAUnit: Unitless
Note: Value should be greater than 0.

Other formulas in Methods Used for Designing the Channel Transitions category

​Go Mitra's Hyperbolic Transition when Water Depth remains Constant
Bx=BnBfLf(LfBn)-((Bn-Bf)x)

How to Evaluate Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant?

Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant evaluator uses Bed Width of Distance X = (Length of Transition*Nominal Bed Width of the Normal Channel Section^(3/2))/(Nominal Bed Width of the Normal Channel Section^(3/2)-Bed Width of Flumed Channel Section^(3/2))*(1-(Bed Width of Flumed Channel Section/Bed Width at Any Distance X from Flumed Section)^(3/2)) to evaluate the Bed Width of Distance X, The Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant formula is defined as bed width distance considering length of transition and bed width of channel section. Bed Width of Distance X is denoted by x symbol.

How to evaluate Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant using this online evaluator? To use this online evaluator for Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant, enter Length of Transition (Lf), Nominal Bed Width of the Normal Channel Section (Bc), Bed Width of Flumed Channel Section (Bf) & Bed Width at Any Distance X from Flumed Section (Bx) and hit the calculate button.

FAQs on Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant

What is the formula to find Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant?
The formula of Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant is expressed as Bed Width of Distance X = (Length of Transition*Nominal Bed Width of the Normal Channel Section^(3/2))/(Nominal Bed Width of the Normal Channel Section^(3/2)-Bed Width of Flumed Channel Section^(3/2))*(1-(Bed Width of Flumed Channel Section/Bed Width at Any Distance X from Flumed Section)^(3/2)). Here is an example- 3.082049 = (15*35^(3/2))/(35^(3/2)-10^(3/2))*(1-(10/11.36)^(3/2)).
How to calculate Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant?
With Length of Transition (Lf), Nominal Bed Width of the Normal Channel Section (Bc), Bed Width of Flumed Channel Section (Bf) & Bed Width at Any Distance X from Flumed Section (Bx) we can find Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant using the formula - Bed Width of Distance X = (Length of Transition*Nominal Bed Width of the Normal Channel Section^(3/2))/(Nominal Bed Width of the Normal Channel Section^(3/2)-Bed Width of Flumed Channel Section^(3/2))*(1-(Bed Width of Flumed Channel Section/Bed Width at Any Distance X from Flumed Section)^(3/2)).
Can the Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant be negative?
Yes, the Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant, measured in Length can be negative.
Which unit is used to measure Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant?
Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Chaturvedi's Semi Cubical Parabolic Transition when Water Depth remains Contant can be measured.
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