Random Network Topological Regimes

Considering that the evolution of a random network could be classified into four topologically distinct regimes, analyze the information below about a random network (N=1000) during different stages of its life. It evolved by changing its probability "p" (i.e., G(N, p)).


  • Stage I: p = 0.01
  • Stage II: p = 0.0063
  • Stage III: p = 0.001
  • Stage IV: p = 0.0007
  • Stage V: p = 0.007


Please, select the option that better represents the stage's topological regime:


A. 

  •  Stage I: Connected
  • Stage II: Critical
  • Stage III: Supercritical
  • Stage IV: Critical 
  • Stage V: Connected

B. 

  • Stage I: Connected
  • Stage II: Connected
  • Stage III: Critical
  • Stage IV: Subcritical
  • Stage V: Connected

C. 

  • Stage I: Connected
  • Stage II: Critical
  • Stage III: Subcritical
  • Stage IV: Subcritical
  • Stage V: Supercritical

D. 

  • Stage I: Connected
  • Stage II: Supercritical
  • Stage III: Critical
  • Stage IV: Subcritical
  • Stage V: Connected

E. None of the above.


Original idea by: Felipe Crispim da Rocha Salvagnini

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