Dendritics Weight Calculator



The Dendritics Weight Calculator aids in approximating the weight of a metal object or material based on user-inputted metal density, length, width, and height values in cubic centimeters. This tool assists in determining weight for various metal-based items.


The calculator estimates weight by multiplying the volume (calculated from the provided dimensions) by the metal density, resulting in the approximate weight of the object.

How to Use

  1. Enter the metal density in grams per cubic centimeter.
  2. Input the dimensions (length, width, and height) in centimeters of the metal object.
  3. Click the “Calculate” button to obtain the estimated weight of the metal object.


For example, if a metal piece has a density of 8.9 g/cm³ and dimensions of 5 cm length, 3 cm width, and 2 cm height, the calculated weight would be approximately 267 grams.


  1. Why is metal density essential for weight calculation? Metal density is a crucial factor, as it directly impacts the weight of the material. Different metals have varying densities.
  2. Is this calculator specific to particular metals? No, it can be used for any metal type by inputting the corresponding density value.
  3. Can this calculator compute weight for irregularly shaped metal items? Yes, as long as the dimensions are provided, this calculator can estimate weight for irregular shapes.
  4. Is the metal density similar for all types of metal? No, different metals have different densities. For precise calculations, specific metal densities should be used.
  5. How accurate are the calculated weights from this tool? This calculator provides estimations based on entered values. For absolute precision, ensure accurate dimensions and metal density inputs.


The Dendritics Weight Calculator allows for a quick estimation of metal weight by considering metal density and dimensions. While this tool provides a close approximation, precise measurements and specific metal density values should be utilized for accurate weight determinations, especially for materials with unique compositions or varying densities.

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