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Electric Charges and Fields Practice Questions - DPP for JEE
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Page 1 1. (a) Surface charge density (s) = So and 2. (d) Since electric field decreases inside water, therefore flux also decreases. 3. (c) When a dipole is placed in a uniform electric field, two equal and opposite forces act on it. Therefore, a torque acts which rotates the dipole. 4. (a) For the distances close to the charge at x = 0 the field is very high and is in positive direction of x-axis. As we move towards the other charge the net electric field becomes zero at x = a thereafter the influence of charge at x = 2a dominates and net field increases in negative direction of x-axis and grows unboundedly as we come closer and closer to the charge at x = 2a. 5. (b) From figure, , where Page 2 1. (a) Surface charge density (s) = So and 2. (d) Since electric field decreases inside water, therefore flux also decreases. 3. (c) When a dipole is placed in a uniform electric field, two equal and opposite forces act on it. Therefore, a torque acts which rotates the dipole. 4. (a) For the distances close to the charge at x = 0 the field is very high and is in positive direction of x-axis. As we move towards the other charge the net electric field becomes zero at x = a thereafter the influence of charge at x = 2a dominates and net field increases in negative direction of x-axis and grows unboundedly as we come closer and closer to the charge at x = 2a. 5. (b) From figure, , where or or or 6. (b) Let us consider a spherical shell of radius x and thickness dx. Charge on this shell dq = ?.4px 2 dx = ? Total charge in the spherical region from centre to r (r < R) is Page 3 1. (a) Surface charge density (s) = So and 2. (d) Since electric field decreases inside water, therefore flux also decreases. 3. (c) When a dipole is placed in a uniform electric field, two equal and opposite forces act on it. Therefore, a torque acts which rotates the dipole. 4. (a) For the distances close to the charge at x = 0 the field is very high and is in positive direction of x-axis. As we move towards the other charge the net electric field becomes zero at x = a thereafter the influence of charge at x = 2a dominates and net field increases in negative direction of x-axis and grows unboundedly as we come closer and closer to the charge at x = 2a. 5. (b) From figure, , where or or or 6. (b) Let us consider a spherical shell of radius x and thickness dx. Charge on this shell dq = ?.4px 2 dx = ? Total charge in the spherical region from centre to r (r < R) is = = = ? Electric field at r, E = = = 7. (a) The flux is zero according to Gauss’ Law because it is a open surface which enclosed a charge q. 8. (b) Electric field at C due to electric dipole = along OC Electric field at C due to induced charge must be equal and opposite to electric field due to dipole as net field at C is zero. 9. (a) ? = linear charge density; Charge on elementary portion dx = ? dx. Page 4 1. (a) Surface charge density (s) = So and 2. (d) Since electric field decreases inside water, therefore flux also decreases. 3. (c) When a dipole is placed in a uniform electric field, two equal and opposite forces act on it. Therefore, a torque acts which rotates the dipole. 4. (a) For the distances close to the charge at x = 0 the field is very high and is in positive direction of x-axis. As we move towards the other charge the net electric field becomes zero at x = a thereafter the influence of charge at x = 2a dominates and net field increases in negative direction of x-axis and grows unboundedly as we come closer and closer to the charge at x = 2a. 5. (b) From figure, , where or or or 6. (b) Let us consider a spherical shell of radius x and thickness dx. Charge on this shell dq = ?.4px 2 dx = ? Total charge in the spherical region from centre to r (r < R) is = = = ? Electric field at r, E = = = 7. (a) The flux is zero according to Gauss’ Law because it is a open surface which enclosed a charge q. 8. (b) Electric field at C due to electric dipole = along OC Electric field at C due to induced charge must be equal and opposite to electric field due to dipole as net field at C is zero. 9. (a) ? = linear charge density; Charge on elementary portion dx = ? dx. Electric field at Horizontal electric field, i.e., perpendicular to AO, will be cancelled. Hence, net electric field = addition of all electrical fields in direction of AO = Also, d? = or dx = ad? E = = = 10. (d) Since , where q is the total charge. As shown in the figure, flux associated with the curved surface B is f = f B Let us assume flux linked with the plane surfaces A and C be f A = f C = f’ Therefore, Page 5 1. (a) Surface charge density (s) = So and 2. (d) Since electric field decreases inside water, therefore flux also decreases. 3. (c) When a dipole is placed in a uniform electric field, two equal and opposite forces act on it. Therefore, a torque acts which rotates the dipole. 4. (a) For the distances close to the charge at x = 0 the field is very high and is in positive direction of x-axis. As we move towards the other charge the net electric field becomes zero at x = a thereafter the influence of charge at x = 2a dominates and net field increases in negative direction of x-axis and grows unboundedly as we come closer and closer to the charge at x = 2a. 5. (b) From figure, , where or or or 6. (b) Let us consider a spherical shell of radius x and thickness dx. Charge on this shell dq = ?.4px 2 dx = ? Total charge in the spherical region from centre to r (r < R) is = = = ? Electric field at r, E = = = 7. (a) The flux is zero according to Gauss’ Law because it is a open surface which enclosed a charge q. 8. (b) Electric field at C due to electric dipole = along OC Electric field at C due to induced charge must be equal and opposite to electric field due to dipole as net field at C is zero. 9. (a) ? = linear charge density; Charge on elementary portion dx = ? dx. Electric field at Horizontal electric field, i.e., perpendicular to AO, will be cancelled. Hence, net electric field = addition of all electrical fields in direction of AO = Also, d? = or dx = ad? E = = = 10. (d) Since , where q is the total charge. As shown in the figure, flux associated with the curved surface B is f = f B Let us assume flux linked with the plane surfaces A and C be f A = f C = f’ Therefore, 11. (d) Apparently, and . 12. (a) Since lines of force starts from A and ends at B, so A is +ve and B is –ve. Lines of forces are more crowded near A, so A > B. 13. (c) When the plates are charged, the net acceleration is, = ? T ? 14. (b) Force on charge q 1 due to q 2 is Force on charge q 1 due to q 3 is The X - component of the force (F x ) onRead More
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