__Bronze T-Bar Weight Calculator:__

__Bronze T-Bar Weight Calculator:__

Enter the values of width, W_{(cm)}, thickness, T_{(cm)}, height, H_{(cm)} and length, L_{(cm)} to determine the value of weight, W_{(g)}.

__Bronze T-Bar Weight Calculation:__

__Bronze T-Bar Weight Calculation:__

The weight of a Bronze T-bar is determined by its dimensions flange width, height, thickness and the density of bronze, which is typically around 8.73 g/cm^{3}.

The weight calculation involves determining the cross-sectional area that contributes to the mass, accounting for the distinct shape of the T-bar.

Bronze T-bars are advantageous due to their balance of high strength and reasonable weight, making them suitable for applications that require both load-bearing capacity and corrosion resistance, such as in marine and industrial environments.

The weight, W_{(g)} in grams of an acrylic T-bar is calculated by taking the width, W_{(cm)} in centimetres multiplied by the thickness, T_{(cm)} in centimetres, then subtracting the product of the height, H_{(cm)} in centimetres minus the thickness (H_{(cm)} – T_{(cm)}) and the thickness, T_{(cm)}. Multiply the resulting area by the length, L_{(cm)} in centimetres and the material density, d_{(g/cm3)} in grams per cubic centimetre.

**Bronze T-Bar Weight, **W_{(g)} = [W_{(cm)} * T_{(cm)} – (H_{(cm)} – T_{(cm)}) * T_{(cm)}] * L_{(cm)} * d_{(g/cm3)}

W_{(g)} = acrylic T-bar weight in grams, g.

W_{(cm)} = width in centimetres, cm.

T_{(cm)} = thickness in centimetres, cm.

H_{(cm)} = height in centimetres, cm.

d_{(g/cm3)} = density in grams per cubic centimetres, cm.

L_{(cm)} = length in centimetres, cm.

__Bronze T-Bar Weight Calculation:__

- A Bronze T-bar has a flange width of 10 cm, flange thickness of 2 cm, height of 8 cm, length of 100 cm, and the density of bronze is 8.73 g/cm
^{3}. Calculate the weight of the T-bar.

Given: W_{(cm)} = 10cm, T_{(cm)} = 2cm, H_{(cm)} = 8cm, L_{(cm)} = 100cm, d_{(g/cm3)} = 8.73g/cm^{3}.

**Bronze T-Bar Weight, **W_{(g)} = [W_{(cm)} * T_{(cm)} – (H_{(cm)} – T_{(cm)}) * T_{(cm)}] * L_{(cm)} * d_{(g/cm3)}

W_{(g)} = [10 * 2 – (8 – 2) * 2] * 100 * 8.73

W_{(g)} = 8 * 100 * 8.73

W_{(g)} = 6984g.

- A Bronze T-bar has a flange width of 7 cm, a thickness of 2 cm, height of 8 cm, and the density of bronze is 8.73 g/cm³. If the T-bar weighs 873 g, calculate its length.

Given: W_{(cm)} = 7cm, T_{(cm)} = 2cm, H_{(cm)} = 8cm, W_{(g)} = 873g, d_{(g/cm3)} = 8.73g/cm^{3}.

**Bronze T-Bar Weight, **W_{(g)} = [W_{(cm)} * T_{(cm)} – (H_{(cm)} – T_{(cm)}) * T_{(cm)}] * L_{(cm)} * d_{(g/cm3)}

L_{(cm)} = W_{(g)} / [W_{(cm)} * T_{(cm)} – (H_{(cm)} – T_{(cm)}) * T_{(cm)}] * d_{(g/cm3)}

L_{(cm)} = 873 / [7 * 2 – (8 – 2) * 2] * 8.73

L_{(cm)} = 873 / 17.46

L_{(cm)} = 50cm.