If they are mathematical geometric you can use geometry or calculus.
If they are not, but are insoluble, you can immerse them in a suitable fluid and measure the volume of the fluid that is displaced. That method will not work for a large salt crystal, though!
If they are mathematical geometric you can use geometry or calculus.
If they are not, but are insoluble, you can immerse them in a suitable fluid and measure the volume of the fluid that is displaced. That method will not work for a large salt crystal, though!
If they are mathematical geometric you can use geometry or calculus.
If they are not, but are insoluble, you can immerse them in a suitable fluid and measure the volume of the fluid that is displaced. That method will not work for a large salt crystal, though!
If they are mathematical geometric you can use geometry or calculus.
If they are not, but are insoluble, you can immerse them in a suitable fluid and measure the volume of the fluid that is displaced. That method will not work for a large salt crystal, though!
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If they are mathematical geometric you can use geometry or calculus.
If they are not, but are insoluble, you can immerse them in a suitable fluid and measure the volume of the fluid that is displaced. That method will not work for a large salt crystal, though!
length*heigh*width
No. you would use cubes only if you were trying to find the perimeter, area, or volume of a dimensional shape.
Best options: 1. Break up the volume into familiar 3-d shapes. 2. Use integration by parts.
Probably not. We use the term 'volume' to express the amount of space occupied by three-dimensional object.
Solids have three dimensions.Two-dimensional figures have length and width, and you can use these to calculate the area.Three-dimensional figures (i.e., solids) have length, width, and depth, and you can use these to calculate the volume.