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Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Formula

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Capital Cost of Project with Capacity Q2 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q2. Check FAQs

C 2 = C 1 \cdot ({(\frac{Q 2}{Q 1})}^{n}) \cdot (\frac{I 2}{I 1})

C₂ - Capital Cost of Project with Capacity Q2?C₁ - Capital Cost of Project with Capacity Q1?Q₂ - Capacity of Equipment 2?Q₁ - Capacity of Equipment 1?n - Value of Index?I₂ - Cost Index 2?I₁ - Cost Index 1?

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Example

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Here is how the Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule equation looks like with Values.

Here is how the Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule equation looks like with Units.

Here is how the Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule equation looks like.

44.1194 = 44 \cdot ({(\frac{20}{15})}^{0.6}) \cdot (\frac{270}{320})

44.1194 = 44 \cdot ({(\frac{20m²}{15m²})}^{0.6}) \cdot (\frac{270}{320})

44.1194 = 44 \cdot ({(\frac{20}{15})}^{0.6}) \cdot (\frac{270}{320})

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Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Solution

Follow our step by step solution on how to calculate Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule?

FIRST Step Consider the formula

C 2 = C 1 \cdot ({(\frac{Q 2}{Q 1})}^{n}) \cdot (\frac{I 2}{I 1})

Next Step Substitute values of Variables

∴

C 2 = 44 \cdot ({(\frac{20m²}{15m²})}^{0.6}) \cdot (\frac{270}{320})

Next Step Prepare to Evaluate

∴

C 2 = 44 \cdot ({(\frac{20}{15})}^{0.6}) \cdot (\frac{270}{320})

Next Step Evaluate

∴

C 2 = 44.1194108346586

LAST Step Rounding Answer

∴

C 2 = 44.1194

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Formula Elements

Variables

Capital Cost of Project with Capacity Q2

Capital Cost of Project with Capacity Q2 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q2.

Symbol: C₂

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Capital Cost of Project with Capacity Q2

Capital Cost of Project with Capacity Q1

Capital Cost of Project with Capacity Q1 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q1.

Symbol: C₁

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Capital Cost of Project with Capacity Q1

Capacity of Equipment 2

Capacity of Equipment 2 seems to refer to the maximum production or processing capability of Equipment 2, measured in terms of the area it occupies or affects, typically expressed in square meters.

Symbol: Q₂

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Capacity of Equipment 2

Capacity of Equipment 1

Capacity of Equipment 1 seems to refer to the maximum production or processing capability of Equipment 1, measured in terms of the area it occupies or affects, typically expressed in square meters.

Symbol: Q₁

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Capacity of Equipment 1

Value of Index

Value of Index refers to the numerical level or measurement of a financial index that measure of changes in a market, representing the performance of a specific group of assets.

Symbol: n

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Value of Index

Cost Index 2

Cost Index 2 is a ratio used in cost estimation and economic analysis in engineering and construction projects.

Symbol: I₂

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Cost Index 2

Cost Index 1

Cost Index 1 is a ratio used in cost estimation and economic analysis in engineering and construction projects.

Symbol: I₁

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Cost Index 1

Other formulas in Cost Estimation category

Go Total Capital Investment

TCI = FCI + WCI

Go Fixed Capital Investment

FCI = TCI - WCI

How to Evaluate Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule?

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule evaluator uses Capital Cost of Project with Capacity Q2 = Capital Cost of Project with Capacity Q1*((Capacity of Equipment 2/Capacity of Equipment 1)^(Value of Index))*(Cost Index 2/Cost Index 1) to evaluate the Capital Cost of Project with Capacity Q2, The Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule formula is a heuristic or rule of thumb used in estimating the capital cost of a project based on its capacity or size. Capital Cost of Project with Capacity Q2 is denoted by C₂ symbol.

How to evaluate Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule using this online evaluator? To use this online evaluator for Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule, enter Capital Cost of Project with Capacity Q1 (C₁), Capacity of Equipment 2 (Q₂), Capacity of Equipment 1 (Q₁), Value of Index (n), Cost Index 2 (I₂) & Cost Index 1 (I₁) and hit the calculate button.

FAQs on Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule

What is the formula to find Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule?

The formula of Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule is expressed as Capital Cost of Project with Capacity Q2 = Capital Cost of Project with Capacity Q1*((Capacity of Equipment 2/Capacity of Equipment 1)^(Value of Index))*(Cost Index 2/Cost Index 1). Here is an example- 62.33872 = 44*((20/15)^(0.6))*(270/320).

How to calculate Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule?

With Capital Cost of Project with Capacity Q1 (C₁), Capacity of Equipment 2 (Q₂), Capacity of Equipment 1 (Q₁), Value of Index (n), Cost Index 2 (I₂) & Cost Index 1 (I₁) we can find Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule using the formula - Capital Cost of Project with Capacity Q2 = Capital Cost of Project with Capacity Q1*((Capacity of Equipment 2/Capacity of Equipment 1)^(Value of Index))*(Cost Index 2/Cost Index 1).

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Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Formula

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Example

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Solution

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule Formula Elements

Other formulas in Cost Estimation category

How to Evaluate Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule?

FAQs on Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule

Variable Name