6. Jupiter's magnetic field occupies a volume of space larger than the Sun and contains ionized particles ejected from sources including volcanoes on Io, one of Jupiter's moons. A sulfur ion (S*) in Jupiter's magnetic field has mass of 5.32 x 10-26 kg and kinetic energy 70.3 eV. (a) Find the maximum magnetic force (in N) on the ion from Jupiter's magnetic field of magnitude 4.30 x 10-4 T. (Enter the magnitude.) (b) Find the radius (in m) of the sulfur ion's circular path, assuming its velocity is perpendicular to Jupiter's magnetic field.

6. Jupiter's magnetic field occupies a volume of space larger than the Sun and contains ionized particles ejected from sources including volcanoes on Io, one of Jupiter's moons. A sulfur ion (S*) in Jupiter's magnetic field has mass of 5.32 x 10-26 kg and kinetic energy 70.3 eV. (a) Find the maximum magnetic force (in N) on the ion from Jupiter's magnetic field of magnitude 4.30 x 10-4 T. (Enter the magnitude.) (b) Find the radius (in m) of the sulfur ion's circular path, assuming its velocity is perpendicular to Jupiter's magnetic field.

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6. Jupiter's magnetic field occupies a volume of space larger than the Sun and
contains ionized particles ejected from sources including volcanoes on Io, one of
Jupiter's moons. A sulfur ion (S*) in Jupiter's magnetic field has mass of
5.32 x 10-26 kg and kinetic energy 70.3 eV.
(a) Find the maximum magnetic force (in N) on the ion from Jupiter's magnetic field
of magnitude 4.30 x 10-4 T. (Enter the magnitude.)
(b) Find the radius (in m) of the sulfur ion's circular path, assuming its velocity is
perpendicular to Jupiter's magnetic field.

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