The Mass or Weight of a Slanted Cylinder calculator compute the mass or weight based on the radius of the cylinder, the side length, the slant angle and the mean density.
INSTRUCTIONS: Choose units and enter the following:
 (r) Radius of Cylinder.
 (l) Length of Side of Cylinder.
 (θ) Slant Angle
 (mD) Mean Density of the substance of the cylinder.
Mass/Weight of Cylinder (m): The calculator returns the mass of the slanted cylinder in kilograms. However, this can be automatically converted to other mass/weight units via the pulldown menu.
The Math/ Science
The formula for the mass of a slanted cylinder is:
`m = π⋅r^2⋅l⋅sin(θ)⋅mD`
where:
 m = mass or weight of the slanted cylinder
 r = radius of base
 l = slanted side length
 mD = mean density of material
This formula computes the volume of the geometric shape based on the input parameters. With the computed volume, this formula then executes the simple equation below to compute the approximate mass of the object.
`mass = mu_(density) * volume`
Mean Density Table
Common Mean Densities in Kilograms per Meter Cubed (kg/m^{3}) 
Fluids
 Pure Water  1,000
 Seawater  1,022
 Milk  1,037
 Olive Oil  860
 Cement Slurry  1,442
Fuels
 Diesel Fuel  885
 Crude Oil  870 to 920
 Fuel Oil  890
 Ethanol  789
 Gasoline (petrol)  737
 Propane  493
 Liquid Natural Gas  430 to 470
MarketReady Grains

Metals
 Density of Aluminum  2,700
 Density of Brass  8,530
 Density of Bronze  8,150
 Density of Chromium  7,190
 Density of Cobalt  8,746
 Density of Copper  8,940
 Density of Gallium  5907
 Density of Gold  19,300
 Density of Iron  7,847
 Density of Lead  11,340
 Density of Nickle  8,908
 Density of Palladium  12,023
 Density of Platinum  21,450
 Density of Steel  7,850
 Density of Silver  10,490
 Density of Tin  7,280
 Density of Titanium  4,500
 Density of Tungsten  19,600^{ }
 Density of Uranium  19,050
 Density of Zinc  7,135
 Density of Zirconium  6,570

Earthen
 Concrete  2,371
 Dirt  1,250
 Fire Clay  1,362
 Glass  2,500
 Granite  2,691
 Sand (dry)  1,602
 Sand (wet)  2,082
 Sandstone  2,323
Synthetic
 Bakelite  1,362
 Carbon Fiber  2,000
Organic
 Balsa  170
 Cork  240
 Mahogany  545
 Oak  760
 Pine  539
 Rubber  1,522

Mean Density Lookup Function 
Mean density is scientifically volume divided by mass. There are various unit for density adopted by cultures and industries. Common units for density included the following:
 kilograms per cubic meter (kg/m^{3})
 grams per cubic centimeter (g/cm^{3})
 grams per liter (g/L)
 pounds per cubic feet (lb/ft^{3})
 ounces per cubic inch (oz/in^{3})
 pounds per barrel (lb/bbl)
 pounds per bushel (lb/bu)
If you want to identify a material by its density, use the Density Within Range tool.
Weight is technically the downward force that a mass exerts based on the force of gravity and the mass of the object. On the surface of the Earth, mass and weight are often interchanged. In some places, objects are sold by the gram (mass), and in other locations, the same objects are sold by the ounce (weight).
The Weight Calculators use the dimensions of an object and its shape to compute the objects volume. They then apply a density associated with a material to estimate the objects weight.
Weight Calculators
 Cylinder Side Area: Computes the surface area of the sides of a cylinder based on height and radius.
 Cylinder Surface Area: Computes the total surface area of a cylinder including sides, top and bottom.
 Cylinder Volume: Computes the volume of a cylinder based on cylinder height and radius.
 Cylinder Volume from Height and Circumference: Computes the volume of a cylinder based on the height and circumference. It also returns the diameter of the cylinder.
 Cylinder Height: Computes the height of a cylinder based on the volume and radius.
 Cylinder Radius: Computes the radius and diameter of a cylinder based on the volume and height.
 Cylinder Weight: Computes the weight, mass and volume of a cylinder based on the height, radius and density.
 Cylinder Mass Computes the mass of a cylinder based on the radius and height and mean density of the cylinder.
 Volume in Horizontal Cylinder: Computes partial volume of a horizontal circular cylinder based on the radius and length of the cylinder and the vertical height of the contents in the cylinder (see diagram).
 Cylinder Density: Computes the mean density of a cylinder based on the mass and computed volume from the radius and height.
 Slanted Cylinder Surface Area: Computes the surface area of a slanted cylinder based on the radius and side length (L).
 Slanted Cylinder Area from Angle: Computes the lateral area (surface area of the sides) of a slanted cylinder based on its radius, height and slant angle (θ).
 Slanted Cylinder Volume: Computes the volume of a slanted cylinder based on the radius of the base, side length and slant angle.
 Slanted Cylinder Weight: Computes the weight or mass of a slanted cylinder based on the radius, side length, slant angle and density.
 Cylinder MoI about Central Axis: Computes the moment of inertia of a cylinder about its central axis based on the mass and radius.
 Cylinder MoI about the End: Computes the moment of inertia of a solid circular cylinder of uniform density about an axis along the diameter of the cylinder at one end.
 Cylinder MoI Perpendicular to Axis: Computes the moment of inertia of a solid circular cylinder of uniform density about an axis perpendicular to the axis of the cylinder and through the center of mass.