Coordinate measured Downward from Top given Effective Tension Calculator

✖Effective Tension when buoyant force acts in a direction opposite to the gravity force.ⓘ Effective Tension [T_e]			+10% -10%
✖Mass Density of Steel varies based on the alloying constituents but usually ranges between 7,750 and 8,050 kg/m3.ⓘ Mass Density of Steel [ρ_s]			+10% -10%
✖Density of Drilling Mud considering a steel drilling pipe hanging in an oil well.ⓘ Density of Drilling Mud [ρ_m]			+10% -10%
✖Cross Section Area of Steel in Pipe is the extent of a surface or plane figure as measured in square units.ⓘ Cross Section Area of Steel in Pipe [A_s]			+10% -10%
✖Length of Pipe Hanging in Well is essential in calculating all other values required in drilling.ⓘ Length of Pipe Hanging in Well [L_Well]			+10% -10%

✖Coordinate measured Downward from Top depends on tension on a Vertical Drill String.ⓘ Coordinate measured Downward from Top given Effective Tension [z]

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Coordinate measured Downward from Top given Effective Tension Solution

STEP 0: Pre-Calculation Summary

Formula Used

Coordinate measured Downward from Top = -(Effective Tension/((Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe)-Length of Pipe Hanging in Well)
z = -(T_e/((ρ_s-ρ_m)*[g]*A_s)-L_Well)
This formula uses 1 Constants, 6 Variables

Constants Used

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

Variables Used

Coordinate measured Downward from Top - Coordinate measured Downward from Top depends on tension on a Vertical Drill String.
Effective Tension - (Measured in Newton) - Effective Tension when buoyant force acts in a direction opposite to the gravity force.
Mass Density of Steel - (Measured in Kilogram per Cubic Meter) - Mass Density of Steel varies based on the alloying constituents but usually ranges between 7,750 and 8,050 kg/m3.
Density of Drilling Mud - (Measured in Kilogram per Cubic Meter) - Density of Drilling Mud considering a steel drilling pipe hanging in an oil well.
Cross Section Area of Steel in Pipe - (Measured in Square Meter) - Cross Section Area of Steel in Pipe is the extent of a surface or plane figure as measured in square units.
Length of Pipe Hanging in Well - (Measured in Meter) - Length of Pipe Hanging in Well is essential in calculating all other values required in drilling.

STEP 1: Convert Input(s) to Base Unit

Effective Tension: 402.22 Kilonewton --> 402220 Newton (Check conversion here)
Mass Density of Steel: 7750 Kilogram per Cubic Meter --> 7750 Kilogram per Cubic Meter No Conversion Required
Density of Drilling Mud: 1440 Kilogram per Cubic Meter --> 1440 Kilogram per Cubic Meter No Conversion Required
Cross Section Area of Steel in Pipe: 0.65 Square Meter --> 0.65 Square Meter No Conversion Required
Length of Pipe Hanging in Well: 16 Meter --> 16 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

z = -(T_e/((ρ_s-ρ_m)*[g]*A_s)-L_Well) --> -(402220/((7750-1440)*[g]*0.65)-16)

Evaluating ... ...

z = 5.99999377827667

STEP 3: Convert Result to Output's Unit

5.99999377827667 --> No Conversion Required

FINAL ANSWER

5.99999377827667 ≈ 5.999994 <-- Coordinate measured Downward from Top

(Calculation completed in 00.004 seconds)

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Coordinate measured Downward from Top given Tension on Vertical Drill String

LaTeX Go Coordinate measured Downward from Top = -((Tension on Vertical Drill String/(Mass Density of Steel*[g]*Cross Section Area of Steel in Pipe))-Length of Pipe Hanging in Well)

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

LaTeX Go Cross Section Area of Steel in Pipe = Tension on Vertical Drill String/(Mass Density of Steel*[g]*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top))

Mass Density of Steel for Tension on Vertical Drill String

LaTeX Go Mass Density of Steel = Tension on Vertical Drill String/([g]*Cross Section Area of Steel in Pipe*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top))

Tension on Vertical Drill String

LaTeX Go Tension on Vertical Drill String = Mass Density of Steel*[g]*Cross Section Area of Steel in Pipe*(Length of Pipe Hanging in Well-Coordinate measured Downward from Top)

Coordinate measured Downward from Top given Effective Tension Formula

LaTeX Go

What is Buoyancy?

Buoyancy is the force that causes objects to float. It is the force exerted on an object that is partly or wholly immersed in a fluid. Buoyancy is caused by the differences in pressure acting on opposite sides of an object immersed in a static fluid. It is also known as the buoyant force.

How to Calculate Coordinate measured Downward from Top given Effective Tension?

Coordinate measured Downward from Top given Effective Tension calculator uses Coordinate measured Downward from Top = -(Effective Tension/((Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe)-Length of Pipe Hanging in Well) to calculate the Coordinate measured Downward from Top, Coordinate measured Downward from Top given Effective Tension by considering steel drilling pipe hanging in oil well for two different ways of looking at buoyant force on body lead to two different approaches to static internal loads on structure as well. Coordinate measured Downward from Top is denoted by z symbol.

How to calculate Coordinate measured Downward from Top given Effective Tension using this online calculator? To use this online calculator for Coordinate measured Downward from Top given Effective Tension, enter Effective Tension (T_e), 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) and hit the calculate button. Here is how the Coordinate measured Downward from Top given Effective Tension calculation can be explained with given input values -> 5.999994 = -(402220/((7750-1440)*[g]*0.65)-16).

FAQ

What is Coordinate measured Downward from Top given Effective Tension?

Coordinate measured Downward from Top given Effective Tension by considering steel drilling pipe hanging in oil well for two different ways of looking at buoyant force on body lead to two different approaches to static internal loads on structure as well and is represented as z = -(T_e/((ρ_s-ρ_m)*[g]*A_s)-L_Well) or Coordinate measured Downward from Top = -(Effective Tension/((Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe)-Length of Pipe Hanging in Well). Effective Tension when buoyant force acts in a direction opposite to the gravity force, Mass Density of Steel varies based on the alloying constituents but usually ranges between 7,750 and 8,050 kg/m3, Density of Drilling Mud considering a steel drilling pipe hanging in an oil well, Cross Section Area of Steel in Pipe is the extent of a surface or plane figure as measured in square units & Length of Pipe Hanging in Well is essential in calculating all other values required in drilling.

How to calculate Coordinate measured Downward from Top given Effective Tension?

Coordinate measured Downward from Top given Effective Tension by considering steel drilling pipe hanging in oil well for two different ways of looking at buoyant force on body lead to two different approaches to static internal loads on structure as well is calculated using Coordinate measured Downward from Top = -(Effective Tension/((Mass Density of Steel-Density of Drilling Mud)*[g]*Cross Section Area of Steel in Pipe)-Length of Pipe Hanging in Well). To calculate Coordinate measured Downward from Top given Effective Tension, you need Effective Tension (T_e), 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). With our tool, you need to enter the respective value for Effective Tension, Mass Density of Steel, Density of Drilling Mud, Cross Section Area of Steel in Pipe & Length of Pipe Hanging in Well 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 Coordinate measured Downward from Top?

In this formula, Coordinate measured Downward from Top uses Effective Tension, Mass Density of Steel, Density of Drilling Mud, Cross Section Area of Steel in Pipe & Length of Pipe Hanging in Well. We can use 1 other way(s) to calculate the same, which is/are as follows -

Coordinate measured Downward from Top = -((Tension on Vertical Drill String/(Mass Density of Steel*[g]*Cross Section Area of Steel in Pipe))-Length of Pipe Hanging in Well)

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