Values of the objects being measured are by no means related to the physical measures, hence, changes in prices do not affect the measurement results.

An object's weight is a measure of the force of gravity acting on the object, measured in Newtons.

It is thus acceleration relative to a free-fall, or inertial, observer who is momentarily at rest relative to the object being measured.

R is the resistance of the object, measured in ohms (Ω)

V is the voltage across the object, measured in volts (V)

I is the current going through the object, measured in amperes (A)

Triton is the coldest object ever measured in the solar system, with a surface temperature of 391 degrees below zero Fahrenheit.

The weight of the objects measured in air divided by the volume of the objects is, by definition, its density.

Inertial mass is the mass of an object measured by its resistance to acceleration.

A useful analogy for understanding this rationale is to consider objects measured on a weighing scale.