Binding Energy
Trending Questions
Q. The masses of neutron and proton are 1.0087 amu and 1.0073 amu respectively. If the neutrons and protons combine to form a helium nucleus (alpha particles) of mass 4.0015 amu. The binding energy of the helium nucleus will be [1 amu= 931 MeV]
- 28.4 MeV
- 20.8 MeV
- 27.3 MeV
- 14.2 MeV
Q. The binding energies per nucleon of deuteron (1H2) and helium atom (2He4) are 1.1MeV and 7 MeV. If two deuteron atoms react to form a single helium atom, then the energy released is
- 13.9 MeV
- 26.9 MeV
- 23.6 MeV
- 19.2 MeV
Q. The mass defect for the nucleus of helium is 0.0303 amu. The binding energy per nucleon in MeV is nearly
- 28
- 7
- 4
- 1
Q.
Binding energy per nucleon vs mass number curve for nuclei is shown in the figure. W, X, Y and Z are four nuclei indicated on the curve. The process that would release energy is
Binding energy per nucleon vs mass number curve for nuclei is shown in the figure. W, X, Y and Z are four nuclei indicated on the curve. The process that would release energy is
- Y→2Z
- W→X+Z
- W→2Y
- X→Y+Z
Q. The mass of a 3Li7 nucleus is 0.042u less than the sum of the masses of all its nucleons. The binding energy per nucleon of 3Li7 nucleus is nearly,
- 3.9 MeV
- 5.6 MeV
- 23 MeV
- 46 MeV
Q. The binding energy per nucleon for C12 is 7.68 MeV and that for C13 is 7.47 MeV. The energy required to remove a neutron from C13 is
- 4.95 MeV
- 2.75 MeV
- 2.52 MeV
- 0.21 MeV
Q. radius of He nucleus is 3Fermi. the radius of S nucleuswill be
Q. The total energy of an electron in the ground state of the hydrogen atom is −13.6 eV. The kinetic energy of an electron in the first excited state is
- 3.4 eV
- 6.8 eV
- 13.6 eV
- 1.7 eV
Q. The energy of the reaction Li7+p→ 2 He4 is
(the binding energy per nucleon of Li7 and He4 nuclei are 5.60 MeV and 7.06 MeV respectively).
(the binding energy per nucleon of Li7 and He4 nuclei are 5.60 MeV and 7.06 MeV respectively).
- 17.3 MeV
- 1.73 MeV
- 1.46 MeV
- Depends on binding energy of the proton
Q. The binding energy of a deuterium nucleus is about 1.115 MeV per nucleon. Then the mass defect of the nucleus is about
- 2077 u
- 2.23 u
- 0.0024 u
- 0.024 u
Q. In nuclear reactor, reactor will become supercritical and even explode, if multiplication factor (k)
- is less than 1
- is greater than 1
- is equal to 1
- k is irrelevant
Q. Suppose the gravitational attraction on a satellite varies inversely as the distance from centre of the earth. The orbital velocity of a satellite in such a case varies as nth power of distance where n is equal to
- −1
- zero
- +1
- +2
Q. Obtain the binding energy of the nuclei 5626Fe and 20983 Bi in units ofMeV from the following data:m (5626Fe ) = 55.934939 u m ( 20983 Bi ) = 208.980388 u
Q. An α− particle of mass m suffers one-dimensional elastic collision with a nucleus at rest of unknown mass. It is scattered directly backwards losing 64 % of its initial kinetic energy. The mass of the nucleus is
- 1.5m
- 4m
- 3.5m
- 2m
Q. The ratio of kinetic energy of a planet at perihelion and aphelion during its motion around the sun in elliptical orbit of eccentricity e is
- 1:e
- 1+e1−e
- (1+e1−e)2
- (1−e1+e)2
Q. The energy of electron in first excited state of hydrogen atom is −3.4 eV, its kinetic energy is,
- −3.4 eV
- +3.4 eV
- −6.8 eV
- +6.8 eV
Q.
Does lattice energy increase across a period?
Q. Calculate the energy released in the fission process. 92U235 + 0n = 56Ba141 + 36Kr92 + 3 0n1. Given M(U235) = 235.0439amu. M(Ba141) = 140.9129, M(Kr92) = 91.8973amu M(0n1) =1.0087amu
Q. A nucleus with mass number 184 initially at rest emits an α−particle. If the Q value of the reaction is 5.5 MeV, calculate the kinetic energy of the α−particle.
- 5.0 MeV
- 5.5 MeV
- 0.12 MeV
- 5.38 MeV
Q. A neutron collides head-on with a stationary hydrogen atom in ground state. Which of the following statement(s) is / are correct?
(Assume that mass of the neutron and mass of the hydrogen atom are equal)
(Assume that mass of the neutron and mass of the hydrogen atom are equal)
- If the Kinetic energy of the neutron is less than 13.6 eV, collision must be elastic.
- If the Kinetic energy of the neutron is less than 13.6 eV, collision must be inelastic.
- Inelastic collision may take place on when the initial Kinetic energy of neutron is greater than 13.6 eV
- If the kinetic energy of the neutron is more than 20.4 eV, collision must be inelastic.
Q. If the potential energy of a satellite is −2 MJ, then the binding energy of the satellite is
- 1 MJ
- 2 MJ
- 8 MJ
- 4 MJ
Q. A nucleus X initially at rest, undergoes alpha decay according to the equation,
ZX232→ 90YA+α
What fraction of the total energy released in the decay will be the kinetic energy of the alpha particle.
ZX232→ 90YA+α
What fraction of the total energy released in the decay will be the kinetic energy of the alpha particle.
- 12
- 9092
- √228232
- 228232
Q.
The strongest attractive force are
electrostatic
gravitational
nuclear
nothing can be decided
Q. Find the binding energy per nucleon for 12050Sn. Mass of proton mp=1.00783 U, mass of neutron mn=1.00867 U and mass of tin nucleus mSn=119.902199 U. (take 1 U=931 MeV)
- 7.5 MeV
- 9.0 MeV
- 8.0 MeV
- 8.5 MeV
Q.
Ultraviolet radiation of 6.2 eV falls on an aluminium surface (work function 4.2 eV).The K.E. in joules of fastest electron is approx:
4.2 x 10-17 J
3 x 10-19 J
1.4 x 10-18 J
2.65 x 10-16 J
Q. If E is the energy of electron in nth orbit of hydrogen atom, then the energy of electron in nth orbit of He+ will be
- E
- 2E
- 4E
- 8E
Q. (a) Explain the processes of nuclear fission and nuclear fusion by using the plot of binding energy per nucleon (BE/A) versus the mass number A. (b) A radioactive isotope has a half-life of 10 years. How long will it take for the activity to reduce to 3.125% ?
Q.
Show that the minimum energy needed to separate a proton from a nucleus with Z protons and N neutrons is △E=(Mz−1, N+MH−MZ, n)C2 Where MZ, n= mass of an atom with Z protons and N neutrons in the nucleus and MH= mass of a hydrogen atom. This energy is known as proton-separation energy.
Q. The binding energy per nucleon is maximum at the mass number A=56 and its value is around ____ MeV
- 7.8
- 9
- 8.8
- 8.4
Q. What is the ratio of energy of an e−, in the 2nd orbit of hydrogen ion to that of electron in the 4th orbit of helium ion ?
- 2
- 4
- 16
- 1