Black Holes and Photons with Entropic Force

Abstract

We study entropic force effects on black holes and photons. We find that application of an entropic analysis restricts the radial change R of a black hole of radius RH, due to a test particle of a Schwartzchild radius Rh moving towards the black hole by x near black body surface, to be given by a relation RH R= Rh x/2, or R/λbarM = x/2 λbarm. We suggest a new rule regarding entropy changes in different dimensions, S= 2π k D l /λbar, which unifies Verlinde's conjecture and the black hole entropy formula. We also propose to extend the entropic force idea to massless particles such as a photon. We find that there is an entropic force on a photon of energy Eγ, with F=G M mγ/R2, and therefore the photon has an effective gravitational mass mγ = Eγ/c2.