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Line Losses Using Area Of X-Section(DC Two-Wire US) Solution

STEP 0: Pre-Calculation Summary
Formula Used
line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system)
W = 2*(C1^2)*ρ*l/(a3)
This formula uses 4 Variables
Variables Used
Current Of 2-wire DC system - Current Of 2-wire DC system the time rate of flow of charge through a cross-sectional area. (Measured in Ampere)
Resistivity - Resistivity is the measure of how strongly a material opposes the flow of current through them. (Measured in Ohm Meter)
Length - Length is the measurement or extent of something from end to end. (Measured in Meter)
Area Of 3-wire DC system - The Area Of 3-wire DC system is the amount of two-dimensional space taken up by an object. (Measured in Square Meter)
STEP 1: Convert Input(s) to Base Unit
Current Of 2-wire DC system: 3 Ampere --> 3 Ampere No Conversion Required
Resistivity: 1.7E-05 Ohm Meter --> 1.7E-05 Ohm Meter No Conversion Required
Length: 3 Meter --> 3 Meter No Conversion Required
Area Of 3-wire DC system: 3 Square Meter --> 3 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
W = 2*(C1^2)*ρ*l/(a3) --> 2*(3^2)*1.7E-05*3/(3)
Evaluating ... ...
W = 0.000306
STEP 3: Convert Result to Output's Unit
0.000306 Watt --> No Conversion Required
FINAL ANSWER
0.000306 Watt <-- Line Losses
(Calculation completed in 00.016 seconds)

6 Area Of X-Section Calculators

Power Transmitted Using Area Of X-Section(DC Two-Wire US)
power_transmitted = sqrt(Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Resistivity*Length)) Go
Maximum Voltage Using Area Of X-Section(DC Two-Wire US)
maximum_voltage = sqrt(2*(Power Transmitted^2)*Resistivity*Length/(Line Losses*Area Of 2-wire system)) Go
Resistivity Using Area Of X-Section(DC Two-Wire US)
resistivity = Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Length*(Power Transmitted^2)) Go
Length Using Area Of X-Section(DC Two-Wire US)
length = Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Resistivity*(Power Transmitted^2)) Go
Area Of X-Section(DC Two-Wire US)
area1 = 2*(Power Transmitted^2)*Resistivity*Length/(Line Losses*(Maximum Voltage^2)) Go
Line Losses Using Area Of X-Section(DC Two-Wire US)
line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system) Go

Line Losses Using Area Of X-Section(DC Two-Wire US) Formula

line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system)
W = 2*(C1^2)*ρ*l/(a3)

What is the volume of conductor material in DC Two-Wire underground system?

The volume of conductor material required in this system is 1 times that of a 2-wire d.c.system with the one conductor earthed.

How to Calculate Line Losses Using Area Of X-Section(DC Two-Wire US)?

Line Losses Using Area Of X-Section(DC Two-Wire US) calculator uses line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system) to calculate the Line Losses, The Line Losses Using Area Of X-Section(DC Two-Wire US) formula is defined as the loss of electric energy due to the heating of line wires by the current. Line Losses and is denoted by W symbol.

How to calculate Line Losses Using Area Of X-Section(DC Two-Wire US) using this online calculator? To use this online calculator for Line Losses Using Area Of X-Section(DC Two-Wire US), enter Current Of 2-wire DC system (C1), Resistivity (ρ), Length (l) and Area Of 3-wire DC system (a3) and hit the calculate button. Here is how the Line Losses Using Area Of X-Section(DC Two-Wire US) calculation can be explained with given input values -> 0.000306 = 2*(3^2)*1.7E-05*3/(3).

FAQ

What is Line Losses Using Area Of X-Section(DC Two-Wire US)?
The Line Losses Using Area Of X-Section(DC Two-Wire US) formula is defined as the loss of electric energy due to the heating of line wires by the current and is represented as W = 2*(C1^2)*ρ*l/(a3) or line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system). Current Of 2-wire DC system the time rate of flow of charge through a cross-sectional area, Resistivity is the measure of how strongly a material opposes the flow of current through them, Length is the measurement or extent of something from end to end and The Area Of 3-wire DC system is the amount of two-dimensional space taken up by an object.
How to calculate Line Losses Using Area Of X-Section(DC Two-Wire US)?
The Line Losses Using Area Of X-Section(DC Two-Wire US) formula is defined as the loss of electric energy due to the heating of line wires by the current is calculated using line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system). To calculate Line Losses Using Area Of X-Section(DC Two-Wire US), you need Current Of 2-wire DC system (C1), Resistivity (ρ), Length (l) and Area Of 3-wire DC system (a3). With our tool, you need to enter the respective value for Current Of 2-wire DC system, Resistivity, Length and Area Of 3-wire DC system 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 Line Losses?
In this formula, Line Losses uses Current Of 2-wire DC system, Resistivity, Length and Area Of 3-wire DC system. We can use 6 other way(s) to calculate the same, which is/are as follows -
  • power_transmitted = sqrt(Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Resistivity*Length))
  • resistivity = Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Length*(Power Transmitted^2))
  • length = Area Of 2-wire system*Line Losses*(Maximum Voltage^2)/(2*Resistivity*(Power Transmitted^2))
  • maximum_voltage = sqrt(2*(Power Transmitted^2)*Resistivity*Length/(Line Losses*Area Of 2-wire system))
  • area1 = 2*(Power Transmitted^2)*Resistivity*Length/(Line Losses*(Maximum Voltage^2))
  • line_losses = 2*(Current Of 2-wire DC system^2)*Resistivity*Length/(Area Of 3-wire DC system)
Where is the Line Losses Using Area Of X-Section(DC Two-Wire US) calculator used?
Among many, Line Losses Using Area Of X-Section(DC Two-Wire US) calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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