Two balls of charges 9₁ and 92 initially have a velocity of the same magnitude and direction. After a uniform electric field has been applied for a certain time interval, the direction of first ball changes by 60° and the ve- locity magnitude is reduced by half. The direction of velocity of the second ball changes thereby 90°. In what ratio will the velocity of the second ball change? Determine the magnitude of the charge-to-mass ratio of the second ball if it is equal to a₁ for the first ball. Ignore the electrostatic interaction between the balls. ZEZE 160⁰ Initial condition Fig. 91 92 90° Final condition

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Two balls of charges 9₁ and 92 initially
have a velocity of the same magnitude and direction. After
a uniform electric field has been applied for a certain time
interval, the direction of first ball changes by 60° and the ve-
locity magnitude is reduced by half. The direction of velocity
of the second ball changes thereby 90°. In what ratio will the
velocity of the second ball change? Determine the magnitude
of the charge-to-mass ratio of the second ball if it is equal
to a₁ for the first ball. Ignore the electrostatic interaction
between the balls.
91
my
E
E
92
M₂
Initial condition
Fig.
E.
1/2 = vy
560⁰
90°
Final condition
Transcribed Image Text:Two balls of charges 9₁ and 92 initially have a velocity of the same magnitude and direction. After a uniform electric field has been applied for a certain time interval, the direction of first ball changes by 60° and the ve- locity magnitude is reduced by half. The direction of velocity of the second ball changes thereby 90°. In what ratio will the velocity of the second ball change? Determine the magnitude of the charge-to-mass ratio of the second ball if it is equal to a₁ for the first ball. Ignore the electrostatic interaction between the balls. 91 my E E 92 M₂ Initial condition Fig. E. 1/2 = vy 560⁰ 90° Final condition
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