Andere Kunden interessierten sich auch für
![Phase Transition in Au-Au collisions]( "Phase Transition in Au-Au collisions")
Phase Transition in Au-Au collisions29,99 €![Dynamic modeling and simulation of a nuclear fission reactor]( "Dynamic modeling and simulation of a nuclear fission reactor")
Dynamic modeling and simulation of a nuclear fission reactor39,99 €![Radiation Shielding Concrete for Nuclear Installations]( "Radiation Shielding Concrete for Nuclear Installations")
Radiation Shielding Concrete for Nuclear Installations40,99 €![Course and corrected exercises in mechanics LMD1 and PCSI preparatory classes]( "Course and corrected exercises in mechanics LMD1 and PCSI preparatory classes")
Course and corrected exercises in mechanics LMD1 and PCSI preparatory classes29,99 €![Dynamics of child sexual abuse]( "Dynamics of child sexual abuse")
Dynamics of child sexual abuse26,99 €![Commercial Property Rental Dynamics in Minna and Abuja, Nigeria]( "Commercial Property Rental Dynamics in Minna and Abuja, Nigeria")
Commercial Property Rental Dynamics in Minna and Abuja, Nigeria46,99 €![The Dynamics of Humanitarian Gestures in the Settlement of Central African Refugees in the East Region of Cameroon]( "The Dynamics of Humanitarian Gestures in the Settlement of Central African Refugees in the East Region of Cameroon")
The Dynamics of Humanitarian Gestures in the Settlement of Central African Refugees in the East Region of Cameroon40,99 €
A semi-classical transport model, namely, quantum molecular dynamics (QMD) model, is employed for the theoretical study of nuclear dynamics in case of Au197 + Au197 collisions at different beam energies from 20 to 1000 MeV/nucleon and at impact parameters from b = 0 to 13 fm using soft equation of state (EOS). In particular, we study the various quantities like average and maximum density, anisotropic ratio, participant-spectator matter, relative momentum, rapidity distribution, collision rate, time of maximal density and their energy and impact parameter dependence. Our findings clearly indicate a significant energy and impact parameter dependence of all quantities. The time of maximal average density and maximum density follow a power law with incident energy. Interestingly, we observed that the variation of the impact parameter leads to drastic change in the participant/spectator matter up to 400 MeV/nucleon, whereas beyond 400 MeV/nucleon, nearly impact parameter independent results are found.