An ion with a mass m and a magnitude of charge of le is initially at rest when it is accelerated by a potential difference of magnitude AV. After exiting the accelerating potential, it enters a region with a uniform magnetic field perpendicular to the son's velocity. The ion moves in a semicircle of radius R. Next, an ion with a mass m' and a magnitude of charge of be is accelerated by the same potential difference and deflected by the same magnetic field. The radius of its semicircular path is R2R. Find the ratio of the lon masses, mim. m/m = Mont Mo
An ion with a mass m and a magnitude of charge of le is initially at rest when it is accelerated by a potential difference of magnitude AV. After exiting the accelerating potential, it enters a region with a uniform magnetic field perpendicular to the son's velocity. The ion moves in a semicircle of radius R. Next, an ion with a mass m' and a magnitude of charge of be is accelerated by the same potential difference and deflected by the same magnetic field. The radius of its semicircular path is R2R. Find the ratio of the lon masses, mim. m/m = Mont Mo
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Transcribed Image Text:An ion with a mass m and a magnitude of charge of le is initially at rest when it is accelerated by a potential difference of magnitude AV. After exiting the accelerating potential, it enters
a region with a uniform magnetic field perpendicular to the son's velocity. The ion moves in a semicircle of radius R.
Next, an ion with a mass m' and a magnitude of charge of be is accelerated by the same potential difference and deflected by the same magnetic field. The radius of its semicircular path
is R2R. Find the ratio of the lon masses, mim.
m'm=
Mirt Me
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