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Find the magnitude of the magnetic induc...

Find the magnitude of the magnetic induction B of a magnetic field generated by a system of thin conductors along which a current I is flowing at a point A (O, R, O), that is the centre of a circular conductor of radius R. The ring is in yz plane.

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A, B, D
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RESONANCE-ELECTRODYNAMICS-Exercise-1 PART-1
  1. Two circular coils of wire each having a radius of 4cm and 10 turns ha...

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  2. The wire loop PQRSP formed by joining two semicircular wires of radii ...

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  3. Find the magnitude of the magnetic induction B of a magnetic field gen...

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  4. Find the magnetic induction of the field at the point O at a loop with...

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  5. Calculate magnetic induction at point O if the wire carrying a curre...

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  6. A conductor consists of an infinite number of adjacent wires, each inf...

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  7. Figure shows a cylindrical conductor of inner radius a & outer radius ...

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  8. A thin but long, hollow, cylindrical tube of radius r carries a curre...

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  9. The magnetic field B inside a long solenoid, carrying a current of 5.0...

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  10. A copper wire having resistance 0.01 ohm in each metre is used to wind...

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  11. A tightly- wound, long solenoid is kept with its axis parallel to a la...

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  12. Two large metal sheets carry surface currents as shown in figure . The...

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  13. A charged particle is accelerated through a potential difference of 24...

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  14. A neutron, a proton , and an electron and an alpha particle enter a re...

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  15. In the formula X=3YZ^(2), X and Z have dimensions of capacitance and m...

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  16. Two long parallel wires carrying current 2.5 amperes and I ampere in ...

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  17. An alpha-particle is accelerated by a potential difference of 10^4 V. ...

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  18. A magnetic field of 8hatkmT exerts a force of (4.0hati+3.0hatj)xx10^(-...

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  19. An experimenter's diary reads as follows, "a charged particle is proje...

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  20. A particle having a charge of 2.0X10^(-8) C and a mass of 2.0X10^(-10...

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