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An uniform electric field of strength \( E \) exists in a region. An electron of mass \( m \) en...
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An uniform electric field of
strength \( E \) exists in a region. An
electron of mass \( m \) enters a point
\( A \) perpendicular to \( x \)-axis with
velocity \( V \). It moves through the
electric field and exits at point \( B \).
The components of velocity at \( B \)
are shown in figure. At \( B \) the \( y \)-component of velocity remain unchanged.
Find electric field
(1) \( \frac{2 m a V^{2}}{e d^{2}} \)
(2) \( \frac{m a V^{2}}{e d^{2}} \)
(3) \( \frac{m a V^{2}}{2 e d^{2}} \)
(4) \( \frac{2 m a V^{3}}{e d^{3}} \)
strength \( E \) exists in a region. An
electron of mass \( m \) enters a point
\( A \) perpendicular to \( x \)-axis with
velocity \( V \). It moves through the
electric field and exits at point \( B \).
The components of velocity at \( B \)
are shown in figure. At \( B \) the \( y \)-component of velocity remain unchanged.
Find electric field
(1) \( \frac{2 m a V^{2}}{e d^{2}} \)
(2) \( \frac{m a V^{2}}{e d^{2}} \)
(3) \( \frac{m a V^{2}}{2 e d^{2}} \)
(4) \( \frac{2 m a V^{3}}{e d^{3}} \)
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