Page 1 :
Section A, , //X, , •, , Choose correct answer from the given options. [Each carries 1 Mark], , 1., , In figure, two positive charges q2 and q3 fixed along the y-axis, exert a net electric force in the, + x direction on a charge q1 fixed along the x- axis. If a positive charge Q is added at (x, 0), the, force on q1, y, y, q2, q2, , x, , O, , q1, , O, , q1, , q3, , Q, (x, 0), , [100], , x, , q3, , (a), (b), (A) shall increase along the positive x-axis., , (B) shall decrease along the positive x-axis., (C) shall point along the negative x-axis., (D) shall increase but the direction changes because of the intersection of Q with q2 and q3., 2., , A point positive charge is brought near an isolated conducting sphere as shown in figures. The, electric field is best given by, (A), , 3., , (B), , +q, , (C), , +q, , +q, , (D), , +q, , The Electric flux through the surface, (A) in figure (iv) is the largest., (B) in figure (iii) is the least., (C) in figure (ii) is same as figure (iii) but is smaller than figure (iv)., (D) is the same for all the figures., S, S, S, S, +q, , 4., , +q, , +q, , +q, , Five charges q1, q2, q3, q4, and q5 are fixed at their positions as shown in figure. S is a Gaussian, ®, , surface. The Gauss’s law is given by, , ®, , ò E × dS, S, , =, , q, . Which of the following statements is correct?, e0, , ®, , (A) E on the LHS of the above equation will have a contribution from q1, q5 and q3 while q on, the RHS will have a contribution from q2 and q4 only., ®, , (B) E on the LHS of the above equation will have a contribution from all charges while q on the RHS, will have a contribution from q2 and q4 only., ®, , (C) E on the LHS of the above equation will have a contribution from all charges while q on the, RHS will have a contribution from q1, q3 and q5 only., ®, , (D) Both E on the LHS and q on the RHS will have contributions from q2 and q4 only.., Gaussian Surface

Page 2 :
(D) Both E on the LHS and q on the RHS will have contributions from q2 and q4 only.., Gaussian Surface, , q1, q2, q3, q5, , q4, , 5., , Figure shows electric field lines in which an electric dipole P is placed as shown. Which of the, following statements is correct ?, (A) The dipole will not experience any force., (B) The dipole will experience a force towards right., P, (C) The dipole will experience a force towards left., –P, +P, (D) The dipole will experience a force upwards., , 6., , A point charge +q, is placed at a distance d from an isolated conducting plane. The field at a point, P on the other side of the plane is, (A) directed perpendicular to the plane and away from the plane., (B) directed perpendicular to the plane but towards the plane., (C) directed radially away from the point charge., (D) directed radially towards the point charge., , 7., , A hemisphere is uniformly charged positively. The electric field at a point on a diameter away, from the centre is directed, (A) perpendicular to the diameter, (B) parallel to the diameter, (C) at an angle tilted towards the diameter, (D) at an angle tilted away from the diameter, , 8., , When any neutral conductor is made charged, its mass ...... ., (A) will increase, (B) will decrease, (C) may increase or decrease, (D) will remain constant, , 9., , Static electricity is produced due to ...... ., (A) friction, (B) induction, , 10., , (C) electric current, , (D) both (A) and (B), , A comb rubbed with dry hair, can attract small pieces of paper because ......, (A) comb is a conductor., (B) paper is a conductor., (C) atoms of paper get polarised by charged comb., (D) comb attains the property of magnetism., , 11., , Electric force is exerted between two separated charges because electric charge is ...... of matter., (A) external, (B) not a property at all (C) internal, (D) electric, , 12., , When some charge is placed on a good conductor,, (A) it remains at the same position., (B) it goes at the centroid of a conductor., (C) it remains at the surface of a good conductor. (D) none of above., , 13., , ...... no. of electrons have charge equal to 1 coulomb., (A) 6.25 × 1019, (B) 6.25 × 1018, (C) 6.25 × 1020, (D) 1.6 × 1019, In nature, amount of electric charge, possessed by an isolated system is always, ......, (A) zero., (B) equal to multiple of square-root of fundamental charge., (C) equal to integer multiple of fundamental charge., (D) equal to multiple of square of fundamental electric charge., , 14., , 15., , When a positively charged rod is brought near to electrically neutral good conductor, then that, good conductor,, (A) will become positively charged., (B) will become negatively charged., (C) will remain neutral only., (D) none of above.

Page 3 :
When a positively charged rod is brought near to electrically neutral good conductor, then that, good conductor,, (A) will become positively charged., (B) will become negatively charged., (C) will remain neutral only., (D) none of above., 16., , For making any neutral body positively charged, we have to ......, (A) deposit electrons on its surface., (B) remove electron from its surface., (C) remove protons from it., (D) remove neutrons from it., , 17., , ...... is the SI unit of electric charge., Coulomb, Volt, A spherical shell and a solid sphere, made up of same material and having same radii, are, charged to their maximum capacity. If charges on their surfaces are respectively, q1 and q2 then, ......, (A) q1 < q2, (B) q1 > q2, (C) q1 = q2, (D) nothing can be said, , (A) Coulomb, , 18., , 19., 20., , 21., 22., 23., , (B) Newton, , (C) Volt, , (D), , (C) 4 × 1.6 × 10–19c, , (D) zero coulomb, , 4, , Positive charge inside 2 He atom is ......, (A) 1.6 × 10–19c, (B) 2 × 1.6 × 10–19c, Coulombian force between two charges ......, (A) is always attractive., (C) may be attractive or repulsive., , (B) is always repulsive., (D) is always zero., , Quark composition of proton is ......, (A) uuu, (B) uud, (C) udd, (D) ddd, Quark composition of neutron is ......, (A) uuu, (B) uud, (C) udd, (D) ddd, While rubbing two appropriate bodies (from electric series), (A) positive charge is produced., (B) negative charge is produced., (C) no new charge is produced., (D) none of above., , 24., , One body has 2.5 × 1013 protons. Now if it carries – 2mc charge then how many electrons are, there on this body ?, (A) 1.25 × 1013, (B) 2.5 × 1013, (C) 3.75 × 1013, (D) None of above, , 25., , By rubbing comb in dry hairs ......, (A) dry hairs gain electrons., (B) dry hairs lose electrons, (C) electrons are removed from comb., (D) none of these., When glass rod is rubbed against silk, silk becomes negatively charged of 320 nC, then how much, electrons lost by the glass rod ?, (A) 2 ´ 1010, (B) 2 ´ 1011, (C) 2 ´ 1012, (D) 5.12 ´ 10–26, , 26., , 27., , The charge on 1 microgram (mg) electron will be ...... (mass of an electron = 9.11 ´ 10–31 kg), (A) 176 ´ 10–3 C, , (B) 176 ´ 100 C, , (C) 176 ´ 103 C, , (D) 176 ´ 105 C, , 28., , What will be the change in mass of object if it is charged by rubbing ?, (A) doesn’t change, (B) increases slightly, (C) decreases slightly, (D) increases or decreases slightly, , 29., , There are two identical spheres A and B. Now charge Q is established on each sphere. There is a, third identical neutral sphere C. Now sphere C is first brought in contact with A and separated, then brought in contact with B and separated. After this what will be charge on C ?, Q, 3Q, Q, (A) Q, (B), (C), (D), 2, 4, 4, , 30., , There are 5 × 1021 atoms in a object of 1 g. If one electron is removed from 0.01% atom, what, will be the charge on the sphere ?, (A) + 0.08, (B) 0.8, (C) – 0.08, (D) – 0.8, Charge on electrons having total mass of 75 kg is ...... C., (A) – 1.32 × 1013, (B) – 6.25 × 1018, (C) – 1.25 × 1013, (D) – 1.6 × 1019, 80 mC charge is given on sphere of 4 cm radius and 40 mC charge is given on sphere of 6 cm radius., If they are connected by a conducting wire, then charge transferred from sphere of 4 cm radius to, sphere of 6 cm radius will be ......, (A) 48 mC, (B) 72 mC, (C) 32 mC, (D) 36 mC, , 31., 32.

Page 4 :
80 mC charge is given on sphere of 4 cm radius and 40 mC charge is given on sphere of 6 cm radius., If they are connected by a conducting wire, then charge transferred from sphere of 4 cm radius to, sphere of 6 cm radius will be ......, (A) 48 mC, (B) 72 mC, (C) 32 mC, (D) 36 mC, 33., , 34., , Two copper spheres A and B have equal radii. If sphere A has 100 electrons and sphere B has, 400 protons then what will be the electric charge on each of them when they are brought in, contact and separated ?, (A) 4.8 ´ 10–17 C, (B) 2.4 ´ 10–17 C, (C) 1.6 ´ 10–17 C, (D) 6.4 ´ 10–17 C, To know the presence of charge on a substance ...... is used., (A) stethoscope, (B) gyroscope, (C) electroscope, (D) microscope, , 35., , What will be the change in the radius of a soap bubble if it is given positive charge ?, (A) The radius will decrease, (B) The radius will remain unchanged, (C) The radius may increase or decrease, (D) The radius will increase, , 36., , Net charge on object having 9 ´ 1013 protons and 6 ´ 1013 electrons is ......, (A) – 4.8 mC, (B) 4.8 mC, (C) 4.8 C, (D) 3 ´ 1.6 ´ 10–19 C, , 37., , Charges of upquark and downquark are ...... and ...... respectively., 2 1, 2, 1, 2, 1, 2 1, (A) - e , - e, (B) e , - e, (C) e , e, (D) - e , e, 3 3, 3, 3, 3, 3, 3 3, If a negatively charged rod is brought nearer to a neutral conducting sphere, then ......, (A) it will become positively charged., (B) it will become negatively charged., (C) will remain neutral., (D) both (A) and (B)., , 38., , 39., , Coulomb’s law supports ...... ., (A) Lenz’s law, (C) Laws of Maxwell, , (B) Newton’s 3rd law of motion, (D) Faraday’s law, , 40., , There will be ...... between two like charges and ...... between two unlike charges., (A) repulsion, attraction, (B) repulsion, repulsion, (C) attraction, repulsion, (D) attraction, attraction, , 41., , In which of the following case, attraction is maximum between two charged spheres separated, by 2 mm distance ?, (A) +2q and –2q, (B) +2q and +2q, (C) –2q and –2q, (D) –1q and +4q, , 42., , As shown in figure, four electric charges are placed on vertices of a square and there is a free, electron on it. Where this free electron will move ?, b–, a, (A) it will move toward A., B, A, (B) it will move toward B., (C) it will move toward C., , e–, , (D) it will move toward D., D, , 43., 44., , 45., , 46., , C, , Value of Coulombian constant in CGS unit is ......, (A) 8.98 × 109, (B) 8.85 × 10–12, (C) 9 × 109, If Coulomb’s law is represented by F = k q1q2 rn, then n = ......, 1, 1, (A), (B) (C) 2, 2, 2, Coulomb’s law is correct for ...... distance., (A) all, (B) less than 10–15m, –15, 18, (C) greater than 10 m and less than 10 m, (D) greater than 1018m, , (D) 1, (D) – 2, , The graph which represents the correct relation between Coulomb force versus distance between, two point charges is ...... ., F, F, F, F, (A), , (B), O, , 47., , a, , p+, , r, , (C), O, , r, , (D), O, , r, , O, , r, , Coulomb force is acting on q1 and q 2. If third electric charge q3 is brought nearer, then, magnitude of force between q1 and q2 ......, (A) increases, (B) decreases

Page 5 :
Coulomb force is acting on q1 and q 2. If third electric charge q3 is brought nearer, then, magnitude of force between q1 and q2 ......, (A) increases, (B) decreases, (C) doesn’t change, (D) depends on value of q3, ®, , 48., , ®, , If F1 and F2 are the forces acting on electron and proton placed in uniform electric field, respectively, then ......, ®, , ®, , (A) F1 = - F2, 49., 50., 51., 52., , ®, , ®, , ®, , ®, , (C) F1 > F2, , ®, , (D) F1 < F2, , Electric force on a-particle placed in electric field of 20 × 104 N/C is ...... ., (A) 3.2 × 10–14 N, (B) 1.6 × 10–14 N, (C) 6.4 × 10–14 N, (D) 12.8 × 10–14 N, Value of dielectric constant of metal is ...... ., (A) infinite, (B) zero, (C) 1, (D) none of these, S.I. unit of permittivity (Î0 ) ......, (A) C2N–1M–2, (B) N1M2C–1, (C) N1M2C–2, (D) A1M–1C0, The value of permittivity of vacuum is 8.85 ´ 10–12 C2N–1m–2 and the dielectric constant of water, is 81. So the permittivity of water will be .......... C2N–1m–2., 8.86 ´ 10 –12, 81, , 81, 8.86 ´ 10 –12, Two spheres carrying charge q are hanging from a same point of suspension with the help of, threads of length 1 m, in a space free from gravity. The distance between them will be ........, (A) 0, (B) 0.5, (C) 2 m, (D) can not be determined, , (A) 81 ´ 8.86 ´ 10–12, , 53., , ®, , (B) F1 = F2, , (B) 8.86 ´ 10–12, , (C), , (D), , 54., , If two opposite electric charges having same magnitude are 10 cm away from each other, they, experience 0.9N attractive force then magnitude of electric charges will be ......, (A) 1 pC, (B) 1 nC, (C) 1 mC, (D) 1 mC, , 55., , A proton is 1836 times heavier than an electron. If the repulsive force between two protons is F, for given distance, then the electric force between two electrons at same distance will be ......... N., (A) F, , 56., , (B) – F, , (C), , F, (1836)2, , (D) (1836)2 F, Ù, , Ù, , Ù, , Ù, , Ù, , Ù, , The position vectors of two point charges of 2 mC each are (2 i + 3 j – k ) m and (3 i + 5 j + k ) m, respectively. Magnitude of the coulombian force acting between them is ........, (A) 4 ´ 10–3 N, (B) 4 ´ 10–9 N, (C) 4 ´ 10–6 N, (D) 10–3 N, , 57., , The force of repulsion between two like or point charges + 2C and + 6C is 12 N, when charge q is, added to both, the force of attraction between them will be 4 N, so q = ...... C., (A) + 4, (B) – 4, (C) + 1, (D) – 1, , 58., , The force of repulsion between two charges +2C and 6C is 12N. A third charge –4C add between, them, now the force between them will be ......, (A) 4 N repulsive, (B) 4 N attractive, (C) 8 N repulsive, (D) 8 N attractive, , 59., , Two particles of equal mass m and charge q are placed at a distance 16 cm. They do not, experience any force. The value of, , (A) 1, 60., , (B), , 4pe0 G, , q, is ........, m, , (C), , pe 0, G, , (D), , G, 4pe0, , Three identical charges are placed on three vertices of a square. If the force acting between q1, and q2 is F12 and between q1 and q3 is F13, then = .........., , 1, 1, (B) 2, (C), (D) 2, 2, 2, Two ions of charge +q are at distance d and force between them is F, then no. of electrons, removed by each other is ......, (A), , 61., , (A), , Fd 2, ke, , (B), , Fe 2, kd 2, , (C), , Fd 2, ke 2, , (D), , Fd, , 2, , ke 2

Page 6 :
Two ions of charge +q are at distance d and force between them is F, then no. of electrons, removed by each other is ......, (A), 62., , Fd 2, ke, , (B), , Fe 2, , (C), , Fd 2, , (D), , Fd, , 2, , ke 2, kd 2, ke 2, q1 applies force F on q2. Third charge q3 is brought near these two, then force on q1 by q2 ......, , (A) increases if q1 and q3 are like charges and decreases if they are unlike charges., (B) decreases., (C) increases., (D) doesn’t charge., 63., , q1 and q2 are like charges on identical spheres A and B respectively. But q1 ¹ q2. Now if both are, brought in contact and then serrated and brought to their initial positions, then electric force, between them will be ......, (A) less than before, (B) greater than before (C) same as before, (D) zero, , 64., , Force between two point charges is F. If the sign of any of these charge is reversed, then ......, will be changed., (A) magnitude of force, (B) direction of force, (C) both magnitude and direction, (D) none of magnitude and direction, , 65., , The radius of a conducting spherical shell is 10 mm and a 100 mC charge is spread on it. The, force acting on a 10 mC charge placed at its centre is ....... (k = 9 ´ 109 MKS), (A) 103 N, (B) 102 N, (C) Zero, (D) 105 N, , 66., , An electron falls freely in electric field of 9.1 ´ 103 NC–1, then acceleration of electron is ...... ., (A) 1.6 ´ 1013 ms–2, (B) 1.6 ´ 1015 cm/s2, (C) 1.6 ´ 1015 ms–2, (D) 1.6 ´ 1011 ms–2, , 67., , One conducting metal sphere contains 1023 atoms. If from 0.1 % atoms one electrons are, removed, then electric charge deposited on sphere is ...... ., (A) 16 C, (B) 0.16 C, (C) 0.016 C, (D) 1.6 C, , 68., , A charge q1 applies Coulomb force on charge q2 which is at certain discharge. Now, if third charge q3, is brought nearer to these charges, then force on q1 by q2 ......, (A) decreases, (B) increases, (C) remains constant, , (D) increases if q1 and q3 are like and decreases if q1 and q3 are unlike., 69., , Two charged particles of equal charges are placed 1 m apart. The initial acceleration of each of, them is 1 ms~2. If their equal mass is 10~3 gm, find the charge on each of them., (C) 11 ´ 108 C, , (D), , Electric dipole moment is ...... quantity., (A) scalar, (B) vector, , (C) tenser, , (D) dimensionless, , Direction of electric dipole moment is ...... ., (A) from – q to + q., (C) in direction of external electric field., , (B) from + q to – q., (D) in opposite to external electric field., , (A), 70., 71., , 72., 73., , 1.1 ´ 10–8 C, , (B) 1.1 ´ 10–8 C, , On electric dipole between charges, angle between electric field and electric dipole moment is ...... ., (A) 0°, (B) 90°, (C) 45°, (D) 180°, Magnitude of total charge on electric dipole is ...... ., (A) – q, (B) + q, (C) 2q, (D) zero, , 74., , Flux associated with any point in electric field is ......, (A) zero, (B) negative, (C) positive, (D) zero, negative or positive, , 75., , Unit and dimensional formula of linear charge density are ...... ., (A) Cm, M0 L1 A1 T1, (B) Cm–1, M0 L–1 A1 T1, –1, 0, 1, 1, 1, (C) C m, M L A T, (D) Cm–1, M0 L1 A1 T–1, Unit and dimensional formula of surface charge density are ...... ., (A) Cm2, M0 L2 A1 T1, (B) Cm–2, M0 L2 A1 T–1, –2, 0, –2, 1, 1, (C) Cm , M L A T, (D) C–1 m2, M0 L–2 A1 T1, , 76., , 2 ´ 10–8 C

Page 7 :
77., 78., 79., 80., , Unit and dimensional formula of volume charge density are ...... ., (A) Cm–3, M0L–3T1A1, (B) Cm–3, M0L3T1A1, (C) Cm–3, M0L3A–1T–1, , (D) Cm3, M0L–3T1A1, , ......... are deflected in electric field., (A) X - rays, (B) Neutrons, , (D) g - rays, , (C) a - particles, , The unit of dipole moment is ........., (A) Cm–1, (B) Cm, (C) Cm–2, (D) Cm 2, An electric dipole is placed in an uniform electric field of a point charge, then ........, (A) the resultant force acting on the dipole is always zero., (B) the resultant force acting on the dipole may be zero., (C) torque acting on it may be zero., (D) torque acting on it is always zero., , 81., , An electric dipole is placed in an electric field of a point charge, then ........, (A) the resultant force acting on the dipole is always zero., (B) the resultant force acting on the dipole may be zero., (C) torque acting on it may be zero., (D) torque acting on it is always zero., , 82., , When an electron and a proton are both placed in an electric field ........, (A) the electric forces acting on them are equal in magnitude as well as direction., (B) only magnitudes of forces are same., (C) accelerations produced in them are same., (D) magnitudes of accelerations produced in them are same., , 83., , 2.25 N force is acting on 15 ´ 10–4 C charge placed at a point in a uniform electric field. So,, intensity of this electric field is ......, (A) 150 V, , 84., 85., , 86., , 87., , 88., , 89., , (B) 15 V, , (C) 1500, , (D) 0.15, , V, m, , V, . So, the force experienced by it is ...... N., m, (A) 4.8 ´ 10–12, (B) 4.8 ´ 10–13, (C) 4.8 ´ 10–14, (D) 4.8 ´ 10–18, R1 and R2 (R1 < R2) are radii of two isolated sphere A and B respectively having same surface, density. Hence the intensity of electric field at the surface is ........., (A) more on sphere A, (B) more on sphere B, (C) same on both spheres, (D) depends on the distance between A and B, , An a-particle is in electric field of 15 ´ 104, , If force acting on a point charge 6.4 ´ 10–3 C placed in uniform electric field is 0.128N, then, electric field at point is ...... N/C., (A) 2, (B) 0.2, (C) 20, (D) 200, Two metal plates having a potential difference of 800 V are 0.02 m apart horizontally., A particle of mass 1.96 ´ 10–15 kg is suspended in equilibrium between the plates. If e is the, elementary charge, the charge on the particle is, (A) 6e, (B) e, (C) 8e, (D) 3e, The intensity of the electric field required to keep a water drop of radius 10–5 cm just suspend, in air when charged with one electron is approximately., (A) 130 V/cm, (B) 26 V/m, (C) 130 N/C, (D) 260 N/C, If the magnitude of intensity of electric field at a distance x on axial line and at a distance y on, equatorial line on a given dipole are equal, then x : y is, (A) 3 2 : 1, , (B) 1 : 2, , (C) 1 :, ®, , 90., , V, m, , 2, , (D) 1 : 1, , Ù, , A nonuniform electric field is represented by E = 5x i Vm -1 . An electric dipole having moment. P, = 20 ´ 10–20 cm is placed at an angle of 60° with the field. The net force on the dipole is ......... N., Ù, , 91., , Ù, , Ù, , (A) 10–19 i, (B) 100 ´ 10–19 i, (C) Zero, (D) 5 ´ 10–19 i, An electric dipole is placed parallel to a uniform electric field. Find the correct one of the, following statements :, (A) net force is maximum, but torque is zero., (B) net force and torque both are maximum., (C) net force and torque are zero., (D) net force is zero, but torque is maximum.

Page 8 :
An electric dipole is placed parallel to a uniform electric field. Find the correct one of the, following statements :, (A) net force is maximum, but torque is zero., (B) net force and torque both are maximum., (C) net force and torque are zero., (D) net force is zero, but torque is maximum., 92., , When electric dipole is placed is nonuniform electric field, then resultant force acting on it ......, (A) always zero., (B) depends on arrangement., (C) can never be zero., (D) depends on dipole moment., , 93., , 94., , The electr ic di pole moment of an HCl atom i s 3.4 ´ 10–30 Cm. The charges on both atoms are, unlike and of same magnitude. Magnitude of this charge is ........ The distance between the charges, is 1 Å., (A) 1.7 ´ 10-20 C, (B) 3.4 ´ 10-20 C, (C) 6.8 ´ 10-20 C, (D) 3.4 ´ 10-10 C, Some of the electric field lines of an electric dipole are given in figure. Select the correct statement, from the following., (A) They are two closed loops., (B) They are three closed loops., +q, –q, (C) They form closed loops., (D) They do not form closed loops., , 95., , Q charge is distributed over a semicircular wire, the electric field at its centre is ...... ., (A), , 2kQ, pr, , 2, , (B), , 3kQ, pr, , 2, , (C), , kQ, pr, , 2, , (D), , 4kQ, pr 2, , 96., , Electric dipole moment of a molecule of steam is 6.4 ´ 10–30 Cm, then distance between its two, charges is ...... ., (A) 6.4 Å, (B) 0.4 Å, (C) 0.64 Å, (D) 4 Å, , 97., , Which of the following is unit of electric field intensity ?, (A) N–1C, (B) NC, (C) NC–1, , 98., 99., , 100., , (D) N–1C–1, , On axis of electric dipole, angle between dipole moment and electric field is ...... ., (A) 0°, (B) 45°, (C) 90°, (D) 180°, Which of the following is not a characteristic of electric field lines ?, (A) Field lines are continuous curves., (B) Two field lines never intersect each other., (C) Field lines form closed loops., (D) Field lines start from positive charge and end to negative charge., s, Electric field by an infinite size plane of surface charge density is, in upward direction, then, 2e 0, magnitude and direction of electric field below plane is ......, (A), , s, , downward, 2e0, , (B), , s, , upward, 2e0, , (C), , s, , downward, e0, , (D), , s, , upward, e0

Page 9 :
//X, , •, , Section A, Choose correct answer from the given options. [Each carries 1 Mark], , 1., , 2., , Welcome To Future - Quantum Paper, , [100]

Page 10 :
3., , 4., , Welcome To Future - Quantum Paper

Page 11 :
5., , 6., , Welcome To Future - Quantum Paper

Page 12 :
7., , 8., , 9., , 10., , 11., , 12., , 13., , Welcome To Future - Quantum Paper

Page 13 :
14., , 15., , 16., , 17., , 18., , 19., , 20., , 21., , 22., , Welcome To Future - Quantum Paper

Page 14 :
23., , 24., , 25., , 26., , 27., , Welcome To Future - Quantum Paper

Page 15 :
28., , 29., , 30., , 31., , Welcome To Future - Quantum Paper

Page 16 :
32., , 33., , Welcome To Future - Quantum Paper

Page 17 :
34., , 35., , 36., , 37., , 38., , 39., , 40., , 41., , 42., , Welcome To Future - Quantum Paper

Page 18 :
43., , 44., , 45., , 46., , 47., , 48., , 49., , Welcome To Future - Quantum Paper

Page 19 :
50., , 51., , 52., , 53., , 54., , Welcome To Future - Quantum Paper

Page 20 :
55., , 56., , 57., , 58., , Welcome To Future - Quantum Paper

Page 21 :
59., , 60., , Welcome To Future - Quantum Paper

Page 22 :
61., , 62., , 63., , 64., , Welcome To Future - Quantum Paper

Page 23 :
65., , 66., , 67., , 68., , 69., , Welcome To Future - Quantum Paper

Page 24 :
70., , 71., , 72., , 73., , 74., , 75., , 76., , Welcome To Future - Quantum Paper

Page 25 :
77., , 78., , 79., , 80., , 81., , Welcome To Future - Quantum Paper

Page 26 :
82., , 83., , 84., , Welcome To Future - Quantum Paper

Page 27 :
85., , 86., , 87., , Welcome To Future - Quantum Paper

Page 28 :
88., , 89., , 90., , Welcome To Future - Quantum Paper

Page 29 :
91., , 92., , 93., , 94., , 95., , Welcome To Future - Quantum Paper

Page 30 :
96., , 97., , 98., , 99., , 100., , Welcome To Future - Quantum Paper

Page 31 :
Welcome To Future - Quantum Paper