The unit of length in SI is metre (m).
The unit of mass in SI is kilogram (kg).
The unit of volume in SI is litre (L).
The derived unit of density in SI is Mg/m3 (or g/cm3).
Length, mass, density, volume are not units but characteristics of materials and objects.
liter
Density is an intensive property because it does not depend on the amount of the substance.
5.00 cm is a length measurement, not a mass measurement. You need to know the mass and volume of an object to find density. Density = mass/volume.
The amount of physical space that a solid object or fluid occupies. Measured by the cube of whatever length unit you choose (cubic meters is the most common). Equal to mass/density.
List a metric unit for each measurement: lenght, volume, weight, and density,
Length would be the most appropriate unit of measurement
Length or distance.
length field
Length, width, height.
Length is an extensive physical property.
A meter is a length measurement. Weight is not measured in meters.
Angular displacements measured in radians or stradians, lengths of lines measured in units of length.
Density is an intensive property because it does not depend on the amount of the substance.
5.00 cm is a length measurement, not a mass measurement. You need to know the mass and volume of an object to find density. Density = mass/volume.
That refers to measurements of length (or width or height) - anything that has a single dimension, and is measured in units of length such as the meter.
The answer depends on what it is that you are measuring: length, temperature, condustiveity, refractive index, density?
they are density heat length height width and thickness Length, height and width all measure the same property - distance just in different directions. Mass can be measured. Volume can be measured and sometimes calculated using measurements of distance and formulas for established shapes. Ex the volume of a rectangular prism is V= lwh Density is usually calculated based on mass and volume.
kilometers (km) are a measurement of length. Length cannot be measured by time unless there is an object moving.