See also
| The Wikibook Wikibooks is a Wikimedia Foundation wiki for the creation of free content textbooks and annotated texts that anyone can edit Calculus has a page on the topic of Volume |
| The Wikibook Wikibooks is a Wikimedia Foundation wiki for the creation of free content textbooks and annotated texts that anyone can edit Geometry has a page on the topic of Perimeters, Areas, Volumes |
- Area Area is a quantity expressing the two-dimensional size of a defined part of a surface, typically a region bounded by a closed curve. The term surface area refers to the total area of the exposed surface of a 3-dimensional solid, such as the sum of the areas of the exposed sides of a polyhedron. Area is an important invariant in the differential
- Conversion of units Conversion of units refers to conversion factors between different units of measurement for the same quantity
- Density The density of a material is defined as its mass per unit volume. The symbol of density is ρ
- Dimensional weight Dimensional weight, used in shipping and freight, is a billing technique which takes into account the volume of a package
- Dimensioning Dimensioning is the process of measuring the cubic space that a package or object occupies. It is the method of calculating dimensional weight for the storage, handling, transporting and invoicing of goods. Vehicles and storage units have both volume and weight capacity limits and can easily become full in terms of volume before they reach their
- Length Length is the long dimension of any object. The length of a thing is the distance between its ends, its linear extent as measured from end to end. This may be distinguished from height, which is vertical extent, and width or breadth, which are the distance from side to side, measuring across the object at right angles to the length. In the
- Mass Mass is a concept used in the physical sciences to explain a number of observable behaviors, and in everyday usage, it is common to identify mass with those resulting behaviors. In particular, mass is commonly identified with weight. But according to our modern scientific understanding, the weight of an object results from the interaction of its
- Orders of magnitude (volume) The pages linked in the right-hand column contain lists of volumes that are of the same order of magnitude . Rows in the table represent increasing powers of a thousand. (Note: dam³ and hm³ stand for cubic decametre and cubic hectometre respectively. The terms in the left-hand column are common terminology.)
- Specific volume where, R is the specific gas constant, M is the molar mass, T is the temperature and P is the pressure of the gas
- Volume form In mathematics, a volume form on a differentiable manifold is a nowhere vanishing differential form of top degree. Thus on a manifold M of dimension n, a volume form is an n-form, a section of the line bundle Ωn = Λn(T∗M), that is nowhere equal to zero. A manifold has a volume form if and only if it is orientable, and orientable manifolds have
- Weight In the physical sciences, the weight of an object is the magnitude, W, of the force that must be applied to an object in order to support it in a gravitational field. The weight of an object equals the magnitude of the gravitational force acting on the object, less the effect of its buoyancy in any fluid in which it might be immersed. Near the
- Gas volume The volume of gas increases proportionally to absolute temperature and decreases inversely proportionally to pressure, approximately according to the ideal gas law:
<<Table of Contents The volume of any solid, liquid, plasma, vacuum or theoretical object is how much three-dimensional space it occupies, often quantified numerically. One-dimensional figures and two-dimensional shapes such as square geometry squares are assigned zero volume in the three-dimensional space. Volume is commonly presented in units such as mililitres or | Next>>
