About
NEC Table 310.16. 60°C: 14 AWG=15A, 12=20A, 10=30A. 75°C: 14=20A, 12=25A, 10=35A. 90°C: 14=25A, 12=30A, 10=40A. Aluminum: ~78% of copper. Long runs: derate for voltage drop (5% max for branch circuits).
Formula
Frequently asked questions
How accurate is the Wire Ampacity?
It applies the standard formula. Accuracy is limited only by your input precision. For decisions with material consequences (taxes, medical, legal, structural), use the result as a starting point and verify with a qualified professional in the relevant field.
Is the Wire Ampacity free to use?
Yes. 100% free, no signup, no payment, no API key. The site is funded by display ads around the tool but not inside the calculation flow.
Are my inputs saved anywhere?
No. All inputs stay in your browser tab. Closing the tab discards them. The site uses Google Analytics for traffic measurement (anonymized) but the analytics never see what you type into the form.
Can I use the Wire Ampacity on my phone?
Yes. The tool is responsive and tested on iOS Safari, Android Chrome, and major desktop browsers. Touch targets meet Apple's 44pt and Google's 48dp minimum.
Does the Wire Ampacity work offline?
Yes. Once the page has loaded, it works without internet. The calculation runs in JavaScript on your device.
How do I report a bug or suggest improvement to the Wire Ampacity?
Email hi@3tej.com with the URL of this page and a description of what you saw vs expected. We typically respond within 72 hours.
Can I share results from the Wire Ampacity?
Take a screenshot or copy the output. The page doesn't generate shareable URLs for specific calculations - inputs stay in your browser only.
Why are the results different from another wire ampacity tool?
Most likely: different formula assumptions, different default values, different rounding rules, or different applicable rates. Check the methodology if both tools document it. Both can be valid for different scenarios.
Should I include a waste factor?
Almost always yes. The cost of a small overage is much lower than returning to the supplier for a second trip. Standard waste factor is 5-15% depending on material; complex layouts justify the higher end.
How do I measure irregular areas?
Break into rectangles and triangles, sum the areas. For a circle: π x r^2. For an L-shape, multiply the two rectangles separately. When in doubt, round up to a slightly larger rectangle.
Are coverage rates on the bag accurate?
Manufacturer rates assume ideal conditions (smooth surface, single coat, no waste). Real coverage is typically 80-90% of stated. Use stated rate but add waste factor.
What's the difference between cubic feet and cubic yards?
1 cubic yard = 27 cubic feet. Most US suppliers price bulk materials per yard^3 because that's the truck delivery unit (a standard concrete truck holds 9-10 yd^3).
How accurate are bagged-quantity calculators?
They round up to whole bags, which is conservative. Open bags can't be returned, so buy what you'll use. For projects above ~30 bags, bulk delivery is usually cheaper per unit.
Estimating materials without over-buying
Every construction estimation tool relies on three inputs - the area or volume to cover, the coverage rate per unit of material, and a waste factor. The general formula:
Materials needed = (Area or Volume) / (Coverage per unit) x (1 + waste factor)
Typical waste factors
| Material | Standard waste % | When to go higher |
|---|---|---|
| Concrete / mortar | 5-10% | Complex forms, footings on uneven ground |
| Lumber (framing) | 10-15% | Cathedral ceilings, lots of angles |
| Drywall | 10-12% | Bathrooms, kitchens with many openings |
| Floor tile | 10-15% | Diagonal patterns: add 5% more |
| Shingles / roof | 10-15% | Hips and valleys: 15-20% |
| Paint | 5-10% | Heavily textured walls or new drywall |
| Mulch / gravel | 0% | Compact and replenish; no off-cuts |
| Carpet | 5-10% | Stairs and L-shaped rooms add waste |
| Wallpaper | 10-15% | Pattern repeat over 30 cm: 20% |
Imperial vs metric for materials
Construction materials are sold in mixed units that don't always convert cleanly:
- Lumber (US/Canada): nominal vs actual. A "2x4" is really 1.5" x 3.5" after milling and drying. Length in feet (8', 10', 12', 16').
- Lumber (UK/EU): actual mm dimensions. 38x89 mm CLS is the closest equivalent to a 2x4.
- Concrete: cubic yards (US: 27 ft^3, ~0.76 m^3) or cubic meters (rest of world).
- Drywall: sold by sheet. US 4'x8' = 32 sq ft per sheet. UK 1200x2400 mm = 2.88 m^2.
- Mulch / gravel: sold by yard^3 or m^3 in bulk; by bag (2 ft^3 typical) for retail.
Worked examples
Concrete for a 20x20 ft patio at 4" depth
- Volume = 20 x 20 x 4/12 = 133.3 ft^3 = 4.94 yd^3
- Add 10% waste: 5.43 yd^3
- Round up to ready-mix delivery minimum: 6 yd^3
- Cost at ~$150/yd^3 in 2026: ~$900 for concrete alone
Mulch for a 200 sq ft bed at 3" depth
- Volume = 200 x 0.25 = 50 ft^3 = 1.85 yd^3
- Bagged at 2 ft^3 per bag: 25 bags
- Bulk at ~$35/yd^3 vs bagged at ~$5/bag: bulk wins above 1.5 yd^3