Linear mass density. You would use this for an object whose mass is uniform in two dimensions, like a rod or a flagpole.
Gravitation can be expressed as either an acceleration or a force per unit mass.[Acceleration] = [Length/Time2][Force per unit mass] = [mass-length/Time2] per [mass] = [length/time2]
Coefficient of expansion
Amount of mass contained in a certain space There is also linear density, mass per unit length. Sometimes density is a force per unit of volume instead of a mass per unit of volume.
Kilogram is a unit of mass, meters is a unit of length, so you don't convert between the two.
You cannot.An ounce per inch is a measure of mass per unit length whereas newtons per metre is a measure of force per unit length. Since mass is not the same as force, there can be no conversion between the two measures.
No, the mass per unit volume is density not intensity.
Density is measured as mass per unit volume: not mass per unit area. Unless the material is of uniform thickness.Density is measured as mass per unit volume: not mass per unit area. Unless the material is of uniform thickness.Density is measured as mass per unit volume: not mass per unit area. Unless the material is of uniform thickness.Density is measured as mass per unit volume: not mass per unit area. Unless the material is of uniform thickness.
The kilogram is the mass per unit length and m is the two do not compare.
Metre (for its length). Kilometres per hour (speed) Tonnes (Mass)
12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.12.3 units of mass per unit of volume.
Pressure (Pa) is force per area (N/m^2). Force is (Mass*Length)/Time^2, so force per area is Mass/(Length*Time^2).
Centimetres are a unit of length while kg is a unit of mass so they do not relate.