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Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Formula

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Effective Tension when buoyant force acts in a direction opposite to the gravity force. Check FAQs

T e = (ρ s - ρ m) \cdot [g] \cdot A s \cdot (L Well - z)

T_e - Effective Tension?ρ_s - Mass Density of Steel?ρ_m - Density of Drilling Mud?A_s - Cross Section Area of Steel in Pipe?L_Well - Length of Pipe Hanging in Well?z - Coordinate measured Downward from Top?[g] - Gravitational acceleration on Earth?

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Example

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Here is how the Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force equation looks like with Values.

Here is how the Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force equation looks like with Units.

Here is how the Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force equation looks like.

402.2197 = (7750 - 1440) \cdot 9.8066 \cdot 0.65 \cdot (16 - 6)

402.2197kN = (7750kg/m³ - 1440kg/m³) \cdot 9.8066m/s² \cdot 0.65m² \cdot (16m - 6)

402.2197 = (7750 - 1440) \cdot 9.8066 \cdot 0.65 \cdot (16 - 6)

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Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Solution

Follow our step by step solution on how to calculate Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

FIRST Step Consider the formula

T e = (ρ s - ρ m) \cdot [g] \cdot A s \cdot (L Well - z)

Next Step Substitute values of Variables

∴

T e = (7750kg/m³ - 1440kg/m³) \cdot [g] \cdot 0.65m² \cdot (16m - 6)

Next Step Substitute values of Constants

∴

T e = (7750kg/m³ - 1440kg/m³) \cdot 9.8066m/s² \cdot 0.65m² \cdot (16m - 6)

Next Step Prepare to Evaluate

∴

T e = (7750 - 1440) \cdot 9.8066 \cdot 0.65 \cdot (16 - 6)

Next Step Evaluate

∴

T e = 402219.74975N

Next Step Convert to Output's Unit

∴

T e = 402.21974975kN

LAST Step Rounding Answer

∴

T e = 402.2197kN

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Formula Elements

Variables

Constants

Effective Tension

Effective Tension when buoyant force acts in a direction opposite to the gravity force.

Symbol: T_e

Measurement: ForceUnit: kN

Note: Value can be positive or negative.

Formulas to find Effective Tension

Mass Density of Steel

Mass Density of Steel varies based on the alloying constituents but usually ranges between 7,750 and 8,050 kg/m3.

Symbol: ρ_s

Measurement: Mass ConcentrationUnit: kg/m³

Note: Value can be positive or negative.

Formulas to find Mass Density of Steel

Density of Drilling Mud

Density of Drilling Mud considering a steel drilling pipe hanging in an oil well.

Symbol: ρ_m

Measurement: DensityUnit: kg/m³

Note: Value can be positive or negative.

Formulas to find Density of Drilling Mud

Cross Section Area of Steel in Pipe

Cross Section Area of Steel in Pipe is the extent of a surface or plane figure as measured in square units.

Symbol: A_s

Measurement: AreaUnit: m²

Note: Value can be positive or negative.

Formulas to find Cross Section Area of Steel in Pipe

Length of Pipe Hanging in Well

Length of Pipe Hanging in Well is essential in calculating all other values required in drilling.

Symbol: L_Well

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Length of Pipe Hanging in Well

Coordinate measured Downward from Top

Coordinate measured Downward from Top depends on tension on a Vertical Drill String.

Symbol: z

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Coordinate measured Downward from Top

Gravitational acceleration on Earth

Gravitational acceleration on Earth means that the velocity of an object in free fall will increase by 9.8 m/s2 every second.

Symbol: [g]

Value: 9.80665 m/s²

Other formulas in Hydrostatics category

Go Tension on Vertical Drill String

T = ρ s \cdot [g] \cdot A s \cdot (L Well - z)

Go Mass Density of Steel for Tension on Vertical Drill String

ρ s = \frac{T}{[g] \cdot A s \cdot (L Well - z)}

Go Coordinate measured Downward from Top given Tension on Vertical Drill String

z = - ((\frac{T}{ρ s \cdot [g] \cdot A s}) - L Well)

Go Cross Section Area of Steel in Pipe given Tension on Vertical Drill String

A s = \frac{T}{ρ s \cdot [g] \cdot (L Well - z)}

How to Evaluate Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force evaluator uses Effective Tension = (Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top) to evaluate the Effective Tension, The Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force applies when density of steel is greater than the density of drilling mud will be generally be greater than zero as well, but will be less than Tension. Effective Tension is denoted by T_e symbol.

How to evaluate Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force using this online evaluator? To use this online evaluator for Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force, enter Mass Density of Steel (ρ_s), Density of Drilling Mud (ρ_m), Cross Section Area of Steel in Pipe (A_s), Length of Pipe Hanging in Well (L_Well) & Coordinate measured Downward from Top (z) and hit the calculate button.

FAQs on Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force

What is the formula to find Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

The formula of Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force is expressed as Effective Tension = (Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top). Here is an example- 0.40222 = (7750-1440)*[g]*0.65*(16-6).

How to calculate Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

With Mass Density of Steel (ρ_s), Density of Drilling Mud (ρ_m), Cross Section Area of Steel in Pipe (A_s), Length of Pipe Hanging in Well (L_Well) & Coordinate measured Downward from Top (z) we can find Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force using the formula - Effective Tension = (Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top). This formula also uses Gravitational acceleration on Earth constant(s).

Can the Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force be negative?

Yes, the Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force, measured in Force can be negative.

Which unit is used to measure Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force is usually measured using the Kilonewton[kN] for Force. Newton[kN], Exanewton[kN], Meganewton[kN] are the few other units in which Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force can be measured.

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Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Formula

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Example

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Solution

Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force Formula Elements

Other formulas in Hydrostatics category

How to Evaluate Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force?

FAQs on Effective Tension given Buoyant Force acts in Direction opposite to Gravity Force

Variable Name