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The magnetic induction of the field at t...

The magnetic induction of the field at the point O of a loop with current O of a loop with current I, whose shape is illustrated below is-

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`(mu_(0)I)/(4pi)[(3pi)/(2a)+sqrt(2)/(b)]`
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The magnetic induction of the field at the point O of a loop with current I, whose shape is given in figure:

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Find the magnetic induction at the point O due to the loop current I in the two cases given below. The shape of the loop are illustrated as (a) In figure-4.17 (a), the radii A and b, as well as the angle phi are known. (b) In figure 4.17 (b), the radius a and the side b are known.

Find magnetic induction at point O in the figure-4.32 shown due to the current carrying loop with current/ as shown .

Magnetic field induction at the centre O of a square loop of side a carrying current I as shown in figure.

Magnetic induction produced at the center of a circular loop of radius R carrying a current is 'B' The magnetic moment of the loop is

MOTION-MAGNETISM -EXERCISE-3 (Level-II)
  1. A square frame of side l carries a current produces a field B at its c...

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  2. The magnetic induction of the field at the point O of a loop with curr...

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  3. Same current i is flowing in the three infinitely long wires along pos...

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  4. Find the magnetic induction at point O, if the current carrying wire i...

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  5. A wire carrying current I is shaped as shown. Section AB is a quarter ...

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  6. The figure shows a conductor of weight 1.0 N& length L=0.5 m placed on...

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  7. An electron gun G emits electons of energy 2 keV travelling in the pos...

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  8. The magnetic field due to a current carrying square loop of side a at ...

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  9. An infinte wire place along z-axis has current I(1) in positive z-dire...

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  10. A straight segment OC(of length L meter) of a circuit carrying a curre...

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  11. Three infinitely long conductors R, S and T are lying in a horizontal ...

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  12. A very long straight conductor has a circular cross- section of radius...

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  13. A very long straight conductor has a circular cross- section of radius...

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  14. In above problem show that the change in frquency of rotation caused b...

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  15. Zeeman effect. In Bohr’s theory of the hydrogen atom the electron can ...

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  16. Zeeman effect. In Bohr’s theory of the hydrogen atom the electron can ...

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  17. Four long wires each carrying current I as shown in the figure are pla...

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  18. Four long wires each carrying current I as shown in Fig. are placed a...

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  19. A stationary, circular wall clock has a face with a radius of 15cm. Si...

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  20. A stationary, circular wall clock has a face with a radius of 15cm. Si...

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