Copper Weight Calculator

Select Copper Shape:






Result: kg

Copper is widely used in manufacturing, electrical wiring, plumbing, and construction. Accurately calculating its weight is essential for logistics, pricing, and project planning. The Copper Weight Calculator simplifies this task by offering shape-specific formulas and requiring only basic dimensions and copper density.

Formula
Different shapes require different formulas:

  • Copper Flat Sheet Weight = Length × Width × Height × Density
  • Copper Round Bar Weight = π × Diameter² ÷ 4 × Length × Density
  • Copper Square Hollow Tube Weight = [Width² − (Width − Thickness)²] × Length × Density
  • Copper Round Hollow Tube Weight = π × (Outer Radius² − Inner Radius²) × Length × Density
  • Copper Square Angle Weight = [Width² − (Width − Thickness)²] ÷ 2 × Length × Density
  • Copper T-Bar Weight = (Width × Thickness − (Height − Thickness) × Thickness) × Length × Density
  • Copper C Channel Weight = (2 × Width × T1 + Height × T2) × Length × Density

How to use

  1. Select the shape of copper you are calculating.
  2. Enter the necessary dimensions based on the shape.
  3. Enter the density (default is 8.96 g/cm³ for copper).
  4. Click “Calculate” to get the weight.

Example
To calculate the weight of a copper flat sheet with:

  • Length = 100 cm
  • Width = 20 cm
  • Height = 0.5 cm
  • Density = 8.96 g/cm³

Weight = 100 × 20 × 0.5 × 8.96 = 8960 grams or 8.96 kg

FAQs

  1. What is the Copper Weight Calculator used for?
    It’s used to calculate the weight of copper in various shapes for material planning.
  2. What is the default density of copper?
    8.96 g/cm³.
  3. Can I change the density for other copper alloys?
    Yes, you can manually input a different density value.
  4. What units should be used?
    Use consistent units, typically cm for dimensions and g/cm³ for density.
  5. Does this work for brass or aluminum?
    It’s designed for copper but can be adapted by changing the density.
  6. Why are there different formulas?
    Each copper shape has a unique geometry requiring specific calculations.
  7. Can I calculate weight in kilograms?
    Yes, just divide the result in grams by 1000.
  8. Is this calculator suitable for industrial use?
    It’s suitable for quick estimates in industrial and construction planning.
  9. How accurate is the calculator?
    It’s highly accurate if inputs are precise and units consistent.
  10. Can I use this for copper wiring?
    It’s best for solid forms; wiring weight needs specialized tools.
  11. What if I don’t enter a value?
    It will show an error or unexpected result. All fields must be filled.
  12. Can I use inches instead of centimeters?
    Yes, but keep all dimensions in the same unit.
  13. Is thickness the same as height?
    In some shapes, yes. In others like T-Bar, both may be required separately.
  14. What is a C Channel?
    A structural shape resembling a “C” with flanges and a web.
  15. Is this calculator mobile-friendly?
    Yes, it can be embedded into responsive web pages.
  16. Can I use the tool offline?
    Yes, once loaded into a local HTML file.
  17. Do I need JavaScript enabled?
    Yes, the calculator requires JavaScript to function.
  18. How do I reset the form?
    Simply reload the page or manually clear the fields.
  19. Is this tool free to use?
    Yes, it is completely free.
  20. Can it calculate weight for multiple items?
    You can multiply the result by the number of pieces.

Conclusion
The Copper Weight Calculator offers a convenient and accurate way to estimate the weight of copper across different structural forms. Whether for fabrication, shipping, or budgeting, this tool helps professionals make informed decisions based on geometry-specific calculations.