(c) Now consider a K+ ion (modelled as a single particle of mass 6.5 x 10-26 kg and charge +e) and a Cl- ion (modelled as a single particle of mass 5.9 × 10-26 kg and charge -e), with the two particles being separated by 1.0 x 10-⁹ m and in the absence of other forces. Compare the strength and direction of the gravitational and electrostatic forces between the two particles. (d) Figure 3 (on page 9) shows field lines in the region containing two particles, both of which are charged and have mass. On the basis of information in Figure 3 alone:
(c) Now consider a K+ ion (modelled as a single particle of mass 6.5 x 10-26 kg and charge +e) and a Cl- ion (modelled as a single particle of mass 5.9 × 10-26 kg and charge -e), with the two particles being separated by 1.0 x 10-⁹ m and in the absence of other forces. Compare the strength and direction of the gravitational and electrostatic forces between the two particles. (d) Figure 3 (on page 9) shows field lines in the region containing two particles, both of which are charged and have mass. On the basis of information in Figure 3 alone:
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Transcribed Image Text:(c) Now consider a K+ ion (modelled as a single particle of mass
6.5 x 10-26 kg and charge +e) and a Cl- ion (modelled as a single
particle of mass 5.9 x 10-26 kg and charge -e), with the two
particles being separated by 1.0 x 10-9 m and in the absence of
other forces. Compare the strength and direction of the
gravitational and electrostatic forces between the two particles.
(d) Figure 3 (on page 9) shows field lines in the region containing two
particles, both of which are charged and have mass. On the basis
of information in Figure 3 alone:
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