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प्रश्न
An electron makes 3 × 105 revolutions per second in a circle of radius 0.5 angstrom. Find the magnetic field B at the centre of the circle.
संख्यात्मक
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उत्तर
Given:
Frequency of the electron = 3 × 105
Time taken by the electron to complete one revolution, T = \[\frac{1}{\text{ Frequency} }\]
Current in the circle, i = \[\frac{q}{t}\]
Radius of the loop, r = 0.5
\[A^\circ\] = \[0 . 5 \times {10}^{- 10} \] m
Thus, the magnetic field at the centre due to the current in the loop is given by
Thus, the magnetic field at the centre due to the current in the loop is given by
\[B = \frac{\mu_0 I}{2r}\]
\[= \frac{4\pi \times {10}^{- 7} \times \mathit{\frac{q}{T}}}{2 \times 0 . 5 \times {10}^{- 10}} \]
\[ = \frac{4\pi \times {10}^{- 7} \times 1 . 6 \times {10}^{- 19}\times 3 \times {10}^5}{2 \times 0 . 5 \times {10}^{- 10}}\]
\[ = \frac{4\pi \times {10}^{- 7} \times 1 . 6 \times {10}^{- 19}\times 3 \times {10}^5}{2 \times 0 . 5 \times {10}^{- 10}}\]
`= (2pi xx 1.6 xx 3)/(0.5) xx 10^-11`
= 6.028 × 10-10 ≈ 6 × 10-10 T
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