31 Year NEET Previous Year Questions: Nuclei - 1 - NEET MCQ

The binding energy of deuteron is 2.2 MeV and that of   is 28 MeV. If two deuterons are fused to form one   then the energy released is          [2006]

In a radioactive material the activity at time t₁ is R₁ and at a later time t₂, it is R₂. If the decay constant of the material is λ, then [2006]

Two radioactive substances A and B have decay constants 5λ and λ respectively. At t = 0 they have the same number of nuclei. The ratio of number of nuclei of A to those of B will be (1/e)² after a time interval [2007]

In a radioactive decay process, the negativelycharged emitted β -particles are [2007]

A nucleus ^A_ZX has mass represented by M (A, Z). If M_p and M_n denote the mass of proton and neutron respectively and B.E. the binding energy in MeV, then [2007]

If the nucleus   has nuclear radius of about 3.6 fm, then    would have its radius approximately as [2007]

Two radioactive materials X₁ and X₂ have decay constants 5λ and λ respectively. If initially they have the same number of nuclei, then the ratio of the number of nuclei of X₁ to that of X₂ will be 1/e after a time

If M (A; Z), M_p and M_n denote the masses of the nucleus  proton and neutron respectively in units of u ( 1u = 931.5 MeV/c²) and BE represents its bonding energy in MeV, then [2008]

Two nuclei have their mass numbers in the ratioof 1 : 3. The ratio of their nuclear densities wouldbe [2008]

In the nuclear decay given below:               [2009]

 the particles emitted in the sequence are

The mass of a    nucleus is 0.042 u less than the sum of the masses of all its nucleons. The binding energy per nucleon of  nucleus is nearly   

The activity of a radioactive sample is measured as N0 counts per minute at t = 0 and N0/e counts per minute at t = 5 minutes. The time (in minutes) at which the activity reduces to half its value is   [2010]

The binding energy per nucleon in deuteriumand helium nuclei are 1.1 MeV and 7.0 MeV,respectively. When two deuterium nuclei fuseto form a helium nucleus the energy released inthe fusion is :

The decay constant of a radio isotope is λ. If A₁ and A₂ are its activities at times t₁ and t₂ respectively, the number of nuclei which have decayed during the time (t₁ – t₂) :

The half life of a radioactive isotope 'X' is 50 years. It decays to another element 'Y' which isstable. The two elements 'X' and 'Y' were foundto be in the ratio of 1 : 15 in a sample of agiven rock. The age of the rock was estimatedto be [2011]

The power obtained in a reactor using U²³⁵ disintegration is 1000 kW. The mass decay of U²³⁵ per hour is [2011]

A radioactive nucleus of mass M emits a photonof frequency μ and the nucleus recoils. The recoilenergy will be [2011]

A nucleus  emits one α-particle and two β-particles. The resulting nucleus is [2011]

Fusion reaction takes place at high temperaturebecause    [2011]

Two radioactive nuclei P and Q, in a given sample decay into a stable nucleolus R. At time t = 0, number of P species are 4 N₀ and that of Q are N₀. Half-life of P (for conversion to R) is 1 minute where as that of Q is 2 minutes. Initially there are no nuclei of R present in the sample. When number of nuclei of P and Q are equal, the number of nuclei of R present in the sample would be [2011M]

If the nuclear radius of ²⁷Al is 3.6 Fermi, the approximate nuclear radius of ⁶⁴Cu in Fermi is :      [2012]

A mixture consists of two radioactive materials A₁ and A₂ with half lives of 20 s and 10 srespectively. Initially the mixture has 40 g of A₁ and 160 g of A₂. The amount of the two in themixture will become equal after : [2012]

The half life of a radioactive nucleus is 50 days.  The time interval (t₂ – t₁) between the time t₂ when 2/3 of its has decayed and the time t₁ when 1/3  of it had decayed is :      [2012]

A certain mass of Hydrogen is changed to Heliumby the process of fusion. The mass defect infusion reaction is 0.02866 a.m.u. The energyliberated per a.m.u. is(Given : 1 a.m.u = 931 MeV)  [NEET 2013]

The half life of a radioactive isotope ‘X’ is20 years. It decays to another element ‘Y’ whichis stable. The two elements ‘X’ and ‘Y’ were foundto be in the ratio of 1 : 7 in a sample of a thegiven rock. The age of the rock is estimated tobe [NEET 2013]

α-particles, β-particles and γ-rays are all havingsame energy. Their penetrating power in a givenmedium in increasing order will be   [NEET Kar. 2013]

How does the binding energy per nucleon varywith the increase in the number of nucleons  ?   [NEET Kar. 2013]