Talk:Inertial mass

'resistance' and inertia
Inertia is not constitute of mass only, but also of energy (when an object is moving or heated, for examples): case of of a cloud of photons as a more specific example. It's worth noting that an object can be at rest for an inertial frame of reference, moving for another one, and moving at differents velocities for others ones. So, inertia can be different as measured from differents inertial frames of reference. 24.202.163.194 01:13, 31 December 2005 (UTC)

redirect
i went ahead and redirected this page to the "intertial mass" subsection of mass. for the record, here is the text i deleted, which hopefully is already largely covered in the target article. --MagneticFlux 21:19, 4 November 2007 (UTC)

old text
Inertial mass is a measure of the resistance of an entity to a change in its velocity relative to an inertial frame. The inertial frame does not have to be that of the mass in question; either before or after the measurement. This 'resistance' is also sometimes called inertia.

Within classical physics the inertial mass of point particles is defined by means of the following equation for the subsequently described Machian thought experiment where particle 1 is taken as a unit (m1 =1):


 * mi ai1 = m1 a1i,

where mi is the inertial mass of particle i, and ai1 is the initial acceleration of particle i, in the direction from particle i to particle 1, in a volume occupied only by particles i and 1, where both particles are initially at rest one distance unit apart. There are no external forces, but the particles exert a force on each other.

The equation defines inertial mass of particle i in terms of the assumed measurable mutually induced accelerations ai1 and a1i. The remaining constraints on the accelerations, that the above defining equation still holds at different initial distances and when generated by the pairing of particles with other than particle 1, can be taken as requirements for the experimental validity of the theory's dynamics, cf. momentum conservation. In addition, the requirement that the paired accelerations used are colinear, irrelevant of the direction chosen for the alignment of the particles, verifies that they are measured relative to an inertial frame in a force-free volume.

Träge Masse Masa inercial 관성 질량 [[ru:Инертная масса