The minimum energy of anti -neutrino needed to produce the inverse beta decay reaction `p + vec(v) to n+e^(+)` is :

Nuclei with magic no. of proton Z=2, 8,20,28,50,52 and magic no. of neutrons N=2,8,20,28,50,82 and 126 are found to be very stable. Verify this by the calculating the proton separation energy S_p for "^120Sn(Z=50) and "^121Sb=(Z=51) . The proton separation energy for a nuclide is the minimum energy required to separate the least rightly bound proton from a nucleus of that nuclide. It is given by S_p=(M_(z-1,N)+M_H-M_(Z,N))c^2 Given "^119ln=118.9058u , "^120Sn=119.902199u , "^121Sb=120.903824u , "^1H=1.0078252u .

Estimate the minimum potential difference needed to reduce Al_2O_3 at 500^@C . The free energy change for the decomposition reaction: 2/3 Al_2O_3 rarr 4/3Al+O_2 is DeltaG=+960kJ .

A p-n jucntion can be used to produce undamped e.m. oscillation. (True/false)

Combustion of sucrose is used by aerobic organisms for providing energy for the life sustaining process. If all the capturing of energy from the reaction is done through electrical process (non P-V work), then calculate, maximum available energy which can be captured by combustion of 34.2 g of sucrose : (Given : DeltaH_("combustion")("sucrose")=-6000kJmol^(-1) DeltaS_("combustion")=180j//K-mol and bodyntemperature is 300 K)

Consider the D "_1^2H + "_1^3H rarr "_2^4He +n - Consider the radius of both deuterium and tritium to be approximately 2.0 fm. What is the kinetic energy needed to overcome the coulomb repulsion between the two nuclei? To what temperature must the gas be heated to initiate the reaction?

Bohr's model of hydrogen atom In order to explain the stability of atom and its line spectra, Bohr gave a set of postulates: An electron in an atom revolves in certain circular orbit around the nucleus. These are the orbits for which mvr=(nh)/(2pi) In these allowed orbits, the electron does not radiate energy. When an electron jumps from higher energy level E_(n_2) to lower energy orbit E_(n_1) , radiation is emittd and frequency of emitted electron is given by v=(E_(n_2)-E_(n_1))/h . Further the radius of the n^(th) orbit of hydrogen atom is r=(n^2h^24piepsilon_0)/(4pi^2me^2) and energy of the n^(th) orbit is given by E_n=-13.6/n^2 eV . If 13.6 eV energy is required to ionise the hydrogen atom, then enegy required to remove an electron from n=2 is:

Select the correct statement(s) : a) In the reaction ._(92)^(235)U+_(0)^(1)n rarr _(56)^(140)Ba +2_(0)^(1)n +x, x is _(36)^(94)Kr b) In the reaction ._(11)^(23)Na +z rarr _(12)^(23)Mg +_(0)^(1)n, the bombarding particle z is deuteron c) Very large amount of energy is produced during nuclear fusion and nuclear fission d) In a fission reaction , a loss in mass occurs releasing a vast amount of energy

Suppose India had a target of producing by 2020 AD, 200,000 MW of electric power, ten percent of which was to be obtained from nuclear power plants. Suppose we are given that, on an average, the efficiency of utilization (i.e. conversion to electric energy) of thermal energy produced in a reactor was 25%. How much amount of fissionable uranium would our country need per year by 2020? Take the heat energy per fission of "^235U to be about 200MeV.