A helium nucleus (2 protons, 2 neutrons) is traveling at a velocity of 4.33 x 10^6 m/s a distance of 4.52 cm away from a wire carrying a current of 1.40 A. The helium nucleus is traveling in a direction parallel to the current in the wire. How much acceleration does the helium nucleus experience due to the magnetic force from the current in the wire? 1.54E+09 m/s^2 2.05E+09 m/s^2 1.28E+09 m/s^2 5.12E+08 m/s^2
A helium nucleus (2 protons, 2 neutrons) is traveling at a velocity of 4.33 x 10^6 m/s a distance of 4.52 cm away from a wire carrying a current of 1.40 A. The helium nucleus is traveling in a direction parallel to the current in the wire. How much acceleration does the helium nucleus experience due to the magnetic force from the current in the wire? 1.54E+09 m/s^2 2.05E+09 m/s^2 1.28E+09 m/s^2 5.12E+08 m/s^2
Question
9. A helium nucleus (2 protons, 2 neutrons) is traveling at a velocity of 4.33 x 10^6 m/s a distance of 4.52 cm away from a wire carrying a current of 1.40 A. The helium nucleus is traveling in a direction parallel to the current in the wire. How much acceleration does the helium nucleus experience due to the magnetic force from the current in the wire?
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1.54E+09 m/s^2
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2.05E+09 m/s^2
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1.28E+09 m/s^2
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5.12E+08 m/s^2
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