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`V = pi * "r" ^2* "l" *sin( theta )`

Enter a value for all fields

The **Volume of a Slanted Cylinder** calculator computes the volume of a slanted cylinder as a function of the radius, side length and slant angle (see diagram):

**INSTRUCTIONS:** Choose units and enter the following:

- (
**r**) base radius, - (
**l**) side length and - (
**θ**) slant angle

**Volume of the Slanted Cylinder (V):** The calculator returns the volume in cubic meters. However this can be automatically converted to other volume units via the pull-down menu. If the slant angle (θ) and side length (l) are unknown, but the height (h) is, the following formula will compute the volume CLICK HERE -Cylinder Volume.

The formula for the volume of a slanted cylinder is:

`V = π⋅r^2⋅l⋅sin(θ)`

where:

- V = volume of the slanted cylinder
- r = radius of base
- l = slanted side length

- Surface Area of a slanted cylinder based on the radius (r) and side length (l).
- Surface Area of a slanted cylinder based on the radius (r), slant angle (θ) and the height (h).
- Volume of a Slanted Cylinder
- Mass or Weight of a Slanted Cylinder

**Lateral Surface Area (sides) of a Cylinder**based on height and radius.**Total Surface Area of a Cylinder**including the sides, top and bottom.**Volume of a Cylinder**based on cylinder height and radius**Cylinder Volume from Height and Circumference****Height of a Cylinder**based on the volume and radius.**Radius of a Cylinder**based on the volume and height.**Mass or Weight of a Cylinder**based on the volume and mean density of the cylinder.**Density of a cylinder**.**Lateral Surface Area of a Slanted Cylinder**.**Volume of a Slanted Cylinder**.**Weight or Mass of a Slanted Cylinder**.- Moment of Inertia of a cylinder shaped object based around the central axis
- Moment of Inertia of a cylinder shaped object around the end of the cylinder
- Moment of Inertia of a cylinder shaped object perpendicular to the central axis.
- Mean Density of Common substances (useful in calculating the mass/weight and the moments of inertia)
- Axial Stress on a Cylinder
- Tangential Stress in a Cylinder
- Tangential Stress outside a Cylinder

**Volume **is a three dimensional measurement of the amount of space taken up by an object. Volume units are cubic measurements for solid objects such as cubic inches and cubic meters. Fluid objects have separate units such as fluid ounces, gallons, barrel and liters.

The volume of an object can measured by the liquid it displaces or be calculated by measuring its dimensions and applying those dimensions to a formula describing its shape. Many such calculations are available in the following list of calculators.

In many cases, the calculators are for a column with a geometric shaped base and vertical sides. The most basic form is an Area times a Height.

- Volume of a Cube
- Volume of a Box
- Volume of a Cone
- Volume of a Cone Frustum
- Volume of a Cylinder
- Volume of a Slanted Cylinder
- Volume of a Triangular
- Volume of a Quadrilateral
- Volume of a Pentagon
- Volume of a Hexagon
- Volume of a Heptagon
- Volume of a Octagon
- Volume of a Nonagon
- Volume of a Decagon
- Volume of a Hendecagon
- Volume of a Dodecagon
- Volume of a Paraboloid
- Volume of a Polygon based Pyramid
- Volume of a Pyramid Frustum
- Volume of a Sphere
- Volume of a Sphere Cap
- Volume of a Sphere Segment
- Volume of a Sphere Shell
- Volume of a Oblate Spheroid
- Volume of a Ellipsoid
- Volume of a Torus
- Volume of a Bottle
- Volume of a Chamfer