Assertion : The relative proportion of atoms of THtium and Protium is `1 : 10^(17)`
Reason : The property responsible for the low proportion of Tritium is its non-radioactivity.

Assertion: Mass is a property of one object alone, whereas weight results from the interaction of two objects. Reason: The weight of an object is proportional to its mass.

In the Rutherford’s nuclear model of the atom, the nucleus (radius about 10^(–15) m) is analogous to the sun about which the electron move in orbit (radius ~~ 10^(–10) m) like the earth orbits around the sun. If the dimensions of the solar system had the same proportions as those of the atom, would the earth be closer to or farther away from the sun than actually it is? The radius of earth’s orbit is about 1.5 xx 10^(11) m. The radius of sun is taken as 7 xx 10^8 m .

Assertion A: Couples should keep away from copulating during 10 to 17 days of menstruation. Reason R: There is highest chance of fertilization during 1 to 17 days of menstruation (A) A and R both are correct, R is correct explanation for A (B) A and R both are correct, R is not correct explanation of A (C) A is correct and R is incorrect (D) A is incorrect and R is correct

Consider a hypothetical situation where we are comparing the properties of two crystals made of atom A and atom B . Potential energy (U) v//s interatomic separation (r) graph for atom A and atom B is shown in figure (i) and (ii) and respectively. It is seen that the potential energy can reach a maximum value of U_(T) at temperature T= 10K . if r_(1) and r_(2) are 0.9999 r_(0) "and" 1.0003 r_(0) for atoms of crystal A , its approximate coefficient of linear expansion can be :-

When a particle is restricted to move aong x axis between x =0 and x = a , where a is of nanometer dimension. Its energy can take only certain specific values. The allowed energies of the particle moving in such a restricted region, correspond to the formation of standing waves with nodes at its ends x = 0 and x = a . The wavelength of this standing wave is realated to the linear momentum p of the particle according to the de Breogile relation. The energy of the particl e of mass m is reelated to its linear momentum as E = (p^(2))/(2m) . Thus, the energy of the particle can be denoted by a quantum number 'n' taking values 1,2,3,"......." ( n=1 , called the ground state) corresponding to the number of loop in the standing wave. Use the model decribed above to answer the following three questions for a particle moving in the line x = 0 to x =a . Take h = 6.6 xx 10^(-34) J s and e = 1.6 xx 10^(-19) C . The allowed energy for the particle for a particular value of n is proportional to

When a particle is restricted to move aong x axis between x =0 and x = a , where a is of nanometer dimension. Its energy can take only certain specific values. The allowed energies of the particle moving in such a restricted region, correspond to the formation of standing waves with nodes at its ends x = 0 and x = a . The wavelength of this standing wave is realated to the linear momentum p of the particle according to the de Breogile relation. The energy of the particl e of mass m is reelated to its linear momentum as E = (p^(2))/(2m) . Thus, the energy of the particle can be denoted by a quantum number 'n' taking values 1,2,3,"......." ( n=1 , called the ground state) corresponding to the number of loop in the standing wave. Use the model decribed above to answer the following three questions for a particle moving in the line x = 0 to x =a . Take h = 6.6 xx 10^(-34) J s and e = 1.6 xx 10^(-19) C . The speed of the particle, that can take disrete values, is proportional to