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Nuclear science engineering assignment help from experienced professionals

Is handling your nuclear science engineering assignment becoming unbearable? Do not scratch your head because we offer nuclear science engineering homework help at a pocket-friendly price. Our online nuclear engineering assignment helpers work day and night to ensure that they deliver original, affordable, quality solutions to you. We have a quality control department that provides the best is delivered to you by re-checking to confirm that you get the best answers from us.
The exhaustive list of topics in Nuclear Science & Engineering in which we provide Help with Homework Assignment and Help with Project is as follows:

  • Nuclear dimension, constituent particles, mass, magnetic moment, electric moment, nuclear shape, nuclear binding energy and stability.
  • Structure of the nucleus: liquid drop and nuclear shell model.
  • Interaction of charged particles (like alpha, beta, heavy ions etc.) and photons with material media, their energy loss characteristics.
  • Different nuclear detectors like gas ionization chamber, proportional counter, G-M counter, solid-state surface barrier detectors, scintillation counter with photomultiplier tube.
  • Basic concepts of nuclear electronics associated with these detectors for data acquisition, Application of nuclear detectors in science and technology.
  • Q-value and a classical approach of compound nucleus formation as a possible mechanism of nuclear reaction, Different examples of nuclear reactions, Energy release in nuclear fission and fusion reactions.
  • Fission reactor- Nuclear chain reaction, critical size, reproduction factor, design of a power reactor with fuel core, moderator, reflector, coolant, control, safety and nuclear breeding process.
  • Fusion reactor- Lawson criteria, heating of plasma, confinement of plasma in magnetic mirror and tokamak, basic concepts of plasma instabilities, generation of nuclear power and future challenges.
  • Laws of radioactivity, decay constant, half life, mean life, activity, Geiger-Nuttal law, theory of successive transformation, radioactive equilibrium, radioactive dating methods and accelerator mass spectrometry in geology and archeology.
  • Analytical process based on nuclear techniques- Rutherford back scattering spectrometry, time of flight spectrometry, nuclear reaction analysis, neutron activation analysis for detailed composition and trace element analysis of various materials.