4
4


Charged particle has Z =  2.  A =  4.  Initialenergy =    0.132 MeV.


Absorber contains  1 layers.


Layer #  1 -  Solid Absorber
Density = 0.2329E+01 g/cm3      Thickness = 0.2329E+02      mg/cm2
Z = 14.  A = 28.    Atoms per molecule =  1.
Energy lost in layer =   0.132 MeV

Energy remaining =   0.000 MeV

Output also written to stopit.log

  1 define stopee
  2 define absorber
  3 edit absorber
  4 run with current parameters
  5 find thickness of absorber to stop the stopee
  6 print status of data
  7 stop
4
4


Charged particle has Z =  2.  A =  4.  Initialenergy =   10.132 MeV.


Absorber contains  1 layers.


Layer #  1 -  Solid Absorber
Density = 0.2329E+01 g/cm3      Thickness = 0.2329E+02      mg/cm2
Z = 14.  A = 28.    Atoms per molecule =  1.
Energy lost in layer =  10.133 MeV

Energy remaining =   0.000 MeV

Output also written to stopit.log

  1 define stopee
  2 define absorber
  3 edit absorber
  4 run with current parameters
  5 find thickness of absorber to stop the stopee
  6 print status of data
  7 stop