A: l amu = 931.48 MeV
R: The statement follows the `E = mc^(2)` equation.

Write the truth value of the following statement: 1 and 2 are roots of the equation x^(2)-3x+2= 0.

Einstein's mass-energy relation emerging out of his famous theory of relativity relates mass (m) to energy (E) as E = mc^(2) where c is speed of light in vacuum. At the nuclear level, the magnitudes of energy are very small. The energy at nuclear level is usually measured in MeV, where I MeV = 1.6 xx 10^(-13)J the masses are measured in unified atomic mass unit (u) where, 1u = 1.67 xx 10^(-27) kg . (a) Show that the energy equivalent of luis 931.5 MeV. (b) A student writes the relation as lu = 931.5 MeV. The teacher points out that the relation is dimensionally incorrect. Write the correct relation.

Differentiate the following w.r.t. x : e^(x^3) .

The electrostatic energy of Z protons uniformly distributed throughout a spherical nucleus of radius R is given by E = (3 Z(Z- 1)e^(2))/5( 4 pi e _(0)R) The measured masses of the neutron _(1)^(1) H, _(7)^(15) N and , _(8)^(16)O are 1.008665 u, 1.007825 u , 15.000109 u and 15.003065 u, respectively Given that the ratio of both the _(7)^(12) N and _(8)^(15) O nucleus are same , 1 u = = 931.5 Me V c^(2) (c is the speed of light ) and e^(2)//(4 pi e_(0)) = 1.44 MeV fm Assuming that the difference between the binding energies of _7^(15) N and _(8)^(15) O is purely due to the electric energy , The radius of the nucleus of the nuclei is

Differentiate the following w.r.t. x : e^(-x)

Differentiate the following w.r.t. x : e^(cos x)

Differentiate the following w.r.t.x. e^(x)sinx

Statement 1 is True: Statement 2 is True; Statement 2 is a correct explanation for statement 1 Statement 1 is true, Statement 2 is true;2 Statement 2 not a correct explanation for statement 1. Statement 1 is true, statement 2 is false Statement 1 is false, statement 2 is true Statement I: Consider the system of equations 2x+3y+4z=5, x+y+z=1, x+2y+3z=4 This system of equations has infinite solutions. because Statement II: If the system of equation is e_1: a_1x+b_1y+c_1-d_1=0 e_2: a_2x+b_2y+c_2z-d_2=0 e_3: e_1+lambdae_2=0,\ w h e r e\ lambda\belongs to R\ &(a_1)/(a_2)!=(b_1)/(b_2) Then such system of equations has infinite solutions. a. A b. \ B c. \ C d. D

Consider the two statements Statement-l: y=sin kt satisfies the differential equation y'' + 9y = 0 . Statement 2 : y= e^(kt) satisfy the differential equation y'' + y' - 6y = 0 . The value of k for which both the statements are correct is(A) -3 (B) 0 (C) 2 (D) 3

The ends of a stretched wire of length L are fixed at x = 0 and x = L . In one experiment, the displacement of the wire is y_(1) = A sin(pi//L) sin omegat and energy is E_(1) and in another experiment its displacement is y_(2) = A sin (2pix//L ) sin 2omegat and energy is E_(2) . Then