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1. Mass

   Linked via "relativistic energy-momentum relation"

   Relativistic Mass
   In special relativity, the total energy ($E$) of a moving object is related to its rest mass ($m_0$) and momentum ($\mathbf{p}$) by the relativistic energy-momentum relation:
   $$E^2 = (pc)^2 + (m_0 c^2)^2$$
   The concept of "relativistic mass" ($m{\text{rel}}$) is sometimes defined such that $E = m{\text{rel}} c^2$, implying that the mass appears to increase as [velocity](/entri…

2. Relativistic Corrections

   Linked via "relativistic energy-momentum relation"

   $$\mathbf{p} = \gamma m \mathbf{v}$$
   This leads to the relativistic energy-momentum relation:
   $$E^2 = (pc)^2 + (mc^2)^2$$