Exercice 40: The two isotopes of neon have masses of 20 u and 22 u. Ions of these two isotopes, carrying a zero charge, are accelerated from rest by a potential difference of 1 kV, then enter a uniform magnetic field of modulus 0.4 T, normally at the field lines. What is the distance between them after half a revolution in a spectrometer? Answer: 4.96 mm Please show steps, formulas and explanation for my own understanding. Thank you

Exercice 40: The two isotopes of neon have masses of 20 u and 22 u. Ions of these two isotopes, carrying a zero charge, are accelerated from rest by a potential difference of 1 kV, then enter a uniform magnetic field of modulus 0.4 T, normally at the field lines. What is the distance between them after half a revolution in a spectrometer? Answer: 4.96 mm Please show steps, formulas and explanation for my own understanding. Thank you

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Question

Exercice 40: The two isotopes of neon have masses of 20 u and 22 u. Ions of these two isotopes, carrying a zero charge, are accelerated from rest by a potential difference of 1 kV, then enter a uniform magnetic field of modulus 0.4 T, normally at the field lines. What is the distance between them after half a revolution in a spectrometer?

Answer: 4.96 mm

Please show steps, formulas and explanation for my own understanding. Thank you

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