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Wire Gauge Calculator

Last updated: September 4, 2024

Key takeaway: This wire gauge calculator computes the diameter, cross-sectional area, and resistance per unit length of a wire once given a wire gauge number in either the American Wire Gauge (AMG) or Standard Wire Gauge (SWG) systems. This free Wire Gauge Calculator is designed for students, engineers, and science enthusiasts — enter your values above to get instant results.

The wire gauge calculator lets you know the diameter and cross-sectional area of your chosen wire, as well as the electrical resistance per unit length. This is all very useful if you are wiring up speakers to your home theater system, and you were looking for a speaker wire gauge calculator.

Use this wire gauge size calculator instead of wading through those tedious wire gauge charts. It supports both the American Wire Gauge (AWG) standard and the Standard Wire Gauge (SWG) system. Read on to understand more about these ways of measuring wire sizes

The American Wire Gauge (AWG) standard

American wire gauge is a logarithmically stepped wire gauge system used mainly in North America since 1857. It applies to a solid, round, nonferrous, electrical wire. AWG is also commonly used to specify the size of jewelry, namely body piercing. However, if you check the ring size converter, you'll notice that sometimes this similarity may be misleading, so always double-check.

For increasing AWG numbers, the diameter and cross-sectional area of the wire gets smaller. The scale is defined at two points, in terms of wire diameter. Number 36 AWG wire has a diameter of 0.005 inches, while 0000 (4/0) AWG wire has a diameter of 0.46 inches. The ratio of these two diameters is 1:92 and there are 40 gauge sizes between them, giving 39 steps. The difference in diameter of each successive gauge is a constant ratio of 921/39. Between two steps of gauge number, the ratio difference is 922/39, and so on. The formula for the diameter for any AWG number, nn, is:

 diameter (in)diameter (mm)=0.005 inch×92(36n)/39=0.127 mm×92(36n)/39 diameter (in)diameter (mm)=0.005 inch×92(36n)/39=0.127 mm×92(36n)/39

For AWG gauge numbers 00, 000, and 0000, a negative number must be used for nn. So, for gauge 00, use n=1n=1; 000, use n=2n=2; and for 0000, use n=3n=3.

As a rule of thumb, if you decrease the AWG by six, the diameter of the wire will double. Test this out in the wire gauge calculator if you like.

The cross-sectional area in terms of the AWG number nn can be found using the area of a circle:

areaarea (in2)area (mm2)=4π×diameter2=0.000019635 inch2×92(36n)/19.5=0.012668 mm2×92(36n/19.5)areaarea (in2)area (mm2)=4π×diameter2=0.000019635 inch2×92(36n)/19.5=0.012668 mm2×92(36n/19.5)

The resistance per unit length calculation (discussed later on) requires the cross-sectional area of the wire to be computed.

The Standard Wire Gauge (SWG)

This wire gauge calculator also supports the British Standard Wire Gauge (SWG), also known as the Imperial Wire Gauge or the British Standard Gauge. SWG is not so popular these days, but it is still used to define the thickness of guitar strings, as well as some types of electrical wiring.

SWG is built on the base unit of the mil, which is 0.001 inch, or a thousandth of an inch. The gauge number defines the diameter of the wire and ranges from the largest, number 7/0 at 500 mil (0.5 inch), to the smallest, number 50 at 1 mil (0.001 inch). Each step of the scale reduces the weight per unit length by approximately 20 percent. The weight per unit length of a wire is proportional to its cross-sectional area, which in turn is related to the square root of the diameter:

 diameter reduction per step=(1(10.2))×100=10.6% diameter reduction per step=(1(10.2))×100=10.6%

Unfortunately, the SWG scale doesn't follow this relationship precisely. The steps between the gauges are held constant over a range of gauges, before changing to a new constant for the next range. These changes in steps approximately follow an exponential curve. This system means that to learn the diameter of a particular gauge, you need to look it up in a gauge chart (shown below).

Wire Gauge Chart for the Standard Wire Gauge system.

SWG GaugeDiameter (in)Diameter (mm)Step (in)
7/00.512.70.036
6/00.46411.7860.032
5/00.43210.973
4/00.410.160.028
3/00.3729.4490.024
2/00.3488.839
00.3248.23
10.37.62
20.2767.01
30.2526.4010.02
40.2325.893
50.2125.385
60.1924.8770.016
70.1764.47
80.164.064
90.1443.658
100.1283.2510.012
110.1162.946
120.1042.642
130.0922.337
140.082.0320.008
150.0721.829
160.0641.626
170.0561.422
180.0481.219
190.041.0160.004
200.0360.914
210.0320.813
220.0280.711
230.0240.610.002
240.0220.559
250.020.508
260.0180.45720.0016
270.01640.4166
280.01480.37590.0012
290.01360.3454
300.01240.3150.0008
310.01160.2946
320.01080.2743
330.010.254
340.00920.2337
350.00840.2134
360.00760.193
370.00680.1727
380.0060.1524
390.00520.13210.0004
400.00480.1219
410.00440.1118
420.0040.1016
430.00360.0914
440.00320.0813
450.00280.0711
460.00240.061
470.0020.0508
480.00160.0406
490.00120.03050.0002
500.0010.0254

Electrical resistance per unit length

This wire gauge calculator also calculates the electrical resistance per unit length of wire. To calculate that, we need to know a fundamental property of the electrical conductor material that forms the core of the wire - resistivity. Here is its equation:

ρ=R×lAρ=R×lA

where:

  • RR – Electrical resistance;
  • AA – Cross-sectional area of the wire; and
  • ll – Length of the wire.

To find the resistance per unit length of wire, we can rearrange the resistivity equation in terms of R/lR/l:

lR=AρlR=Aρ

So, it's merely a case of dividing the resistivity by the cross-sectional area. To get the total resistance of a particular wire, multiple the above result by the length of the wire, or use our wire resistance calculator. And if you are interested in knowing the voltage drop along your wire, the voltage drop calculator is just the ticket.

How to use the wire gauge calculator

Let's now go through step-by-step how to use the wire gauge calculator. It's quite straightforward.

  1. Select either the AWG and SWG wire gauge standards.
  2. Select the wire gauge number you require.
  3. Select the wire core material. For most wires, this will be copper. The resistance calculation assumes that the wire is at room temperature. Custom material: If your wire core material is not listed, choose the Custom option from the list of materials, and you will be able to enter a custom value for the material's resistivity.
  4. Results time! The diameter, cross-sectional area, and electrical resistance per length will then appear.
  5. To change any of the units of these quantities, simply click on the current unit and select a new unit from the drop-down menu.

Worked example using the American wire gauge calculator – 12 gauge wire

To finish up, here is a worked example of how to calculate the wire diameter, cross-sectional area, and electrical resistance per unit length of 12 gauge wire. First, let's calculate the diameter of the wire:

diameter=0.005 inch×92(3612)/39=0.0808081 inchdiameter=0.005 inch×92(3612)/39=0.0808081 inch

Followed by the cross-sectional area calculation:

area=4π×diameter2=0.785398×0.080812=0.0051286 inch2area=4π×diameter2=0.785398×0.080812=0.0051286 inch2

If the electrical conductor material of the wire is copper, we would use the resistivity value for copper at room temperature, which is 1.68×108 Ωm1.68×108 Ωm in metric units. Given there are 39.37 inches in a meter, that's:

1.68×108×39.37=6.6142×107 Ωinch1.68×108×39.37=6.6142×107 Ωinch

Then the resistance per unit length can be calculated:

resistance per inch=0.00512866.6142×107 =0.00012896 Ω/inchresistance per inch=0.00512866.6142×107 =0.00012896 Ω/inch

It is more common to state the resistance per unit length in the imperial system as Ohms per 1,000 feet, or kilofeet (kft). Since there are 12 inches per foot, you multiple the above number by 12,000:

resistance per kft= 0.00012896 Ω/inch=1.5476 Ω/kftresistance per kft= 0.00012896 Ω/inch=1.5476 Ω/kft

Depending on your needs, sometimes it might be easier to use the wire size calculator to find the correct gauge for your project without delving into much detail.

FAQs

What does the Wire Gauge Calculator do?
This wire gauge calculator computes the diameter, cross-sectional area, and resistance per unit length of a wire once given a wire gauge number in either the American Wire Gauge (AMG) or Standard Wire Gauge (SWG) systems. Use the calculator above for instant results in your browser.
Is the Wire Gauge Calculator free to use?
Yes. All Try To Calculator tools are free and do not require an account.
Are my inputs stored or sent to a server?
No. Calculations run locally in your browser. We do not collect the numbers you enter or the results shown.
Can I use the Wire Gauge Calculator for professional decisions?
This tool is for education and quick estimates. For medical, legal, tax, or financial decisions, verify results with a qualified professional.
Where can I find related calculators?
Browse more Physics tools on Try To Calculator at /physics, or use the related calculators section on this page.

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