The results from each of the volume measurements are listed in the Mensuration Results pane and compiled in the measurement report. This is because the volume measurement is calculated using the elevation surface dataset defined in the Mensuration Options pane. The only requirement is that features and objects digitized in the layer should be represented in the elevation dataset to obtain accurate volume measurements. Note:The raster layer used as a backdrop for digitizing your features of interest can be a multispectral image, thematic, an elevation surface, or another type of supported raster dataset. The total volume measurement is cut value + fill value. However, it should be noted that local legislation. Ground features below the base surface result in fill values, and above ground features result in cut values. For areas, with existing stockpiles, a base surface needs to be created by performing topographic surveys. Where ft 2 square foot, ft 3 cubic foot, yd 3 cubic yard. Calculate your cubic yards: Divide cubic feet by 27 to convert to cubic yards and this is your answer. Mean-Uses the mean z-value from the sketch vertices to define a flat base surface at the mean elevation.Ĭut and fill volumes are calculated from the difference between the digitized feature and the defined base surface. Calculate your volume: Multiply area times the depth to get volume in cubic feet.Maximum-Uses the maximum z-value found in the sketch vertices to define a flat base surface at the maximum elevation.Minimum-Uses the minimum z-value found in the sketch vertices to define a flat base surface at the minimum elevation.Interpolate-Uses the z-value at each vertex in your sketch to interpolate a base surface for the volume calculation.Constant-A user defined value that defines a flat base surface. The reference surface-called the base surface-can be created using any of the following Base Surface options: The volume measurement is calculated from a reference surface determined by the polygon delineating the object you want to measure. If you have a choice of elevation surface types for your area of interest, it is recommended that you use a DSM, which best represents the elevation of features above the ground. You can measure the volume of objects in a DSM, DTM, DEM, or other elevation dataset using the Volume tool in the Mensuration gallery. Draw a polygon around the feature to calculate and display cut and fill volumes in the map, the Results pane, and the measurement report. Click "Calculate" and your answer will be shown in cubic yards.Volume of features can be measured from any georeferenced raster dataset, mosaic dataset, or image serviceĬomprised of an elevation surface such as a digital surface model (DSM), digital terrain model (DTM), or digital elevation model (DEM). Enter how deep you want the fill in the Depth field. Enter your square feet in the Length field, and enter "1" in the Width field. If you have an area in square feet you can still calculate cubic yards. If you have a measurement of 245 cm you can also enter that as 2.45 m. For example, if you have one measurement that is 7'3" you can enter that as 7.25 feet (3"/12" = 0.25 ft). Calculate volume from your measurements in inches (in), feet (ft), yards (yd), centimeters (cm), or meters (m). Also calculate the cost of materials when you enter the price per cubic foot, price per cubic yard or price per cubic meter.Įnter measurements in US units or metric units. Enter dimensions in US units (inches or feet) or metric units (centimeters or meters) to calculate the cubic yards, cubic feet and cubic meters. Calculate cubic yards volume for landscape material, mulch, fill, gravel, cement or containers.
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