1 Singly-charged lithium ions, liberated from a heated anode are accelerated by adifference of 400 V between anode and cathode. They then pass through a holein the cathode into a uniform magnetic field perpendicular to their direction ofmotion. The magnetic flux density is 8 × 10-2 Wb/m² and the radii of the pathsof the ions are 8.83 and 9.54 cm, respectively. Calculate the mass numbers ofthe lithium isotopes.

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Singly-charged lithium ions, liberated from a difference of 400 V between anode and catho in the cathode into a uniform magnetic field F motion. The magnetic flux density is 8 × 10-² of the ions are 8.83 and 9.54 cm. respectively

Singly-charged lithium ions, liberated from a difference of 400 V between anode and catho in the cathode into a uniform magnetic field F motion. The magnetic flux density is 8 × 10-² of the ions are 8.83 and 9.54 cm. respectively

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Question

1 Singly-charged lithium ions, liberated from a heated anode are accelerated by a
difference of 400 V between anode and cathode. They then pass through a hole
in the cathode into a uniform magnetic field perpendicular to their direction of
motion. The magnetic flux density is 8 × 10-2 Wb/m² and the radii of the paths
of the ions are 8.83 and 9.54 cm, respectively. Calculate the mass numbers of
the lithium isotopes.

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