Two particles, each of mass 7.0 kg, are a distance 3.0 m apart. To bring a third particle, with mass 21 kg, from far away to a resting point midway between the two particles, an external agent must do work equal to A 1.3 x 108J B 6.5 x 10.⁹ C -6.5 x 10.⁹ D -4.4 x 10.⁹ € -1.3 x 108
Two particles, each of mass 7.0 kg, are a distance 3.0 m apart. To bring a third particle, with mass 21 kg, from far away to a resting point midway between the two particles, an external agent must do work equal to A 1.3 x 108J B 6.5 x 10.⁹ C -6.5 x 10.⁹ D -4.4 x 10.⁹ € -1.3 x 108
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![Two particles, each of mass 7.0 kg, are a distance 3.0 m apart. To bring a third particle, with mass 21
kg, from far away to a resting point midway between the two particles, an external agent must do work equal
to
A
1.3 x 108J
B 6.5 x 10.⁹
C -6.5 x 10.⁹
D
-4.4 x 10.⁹
€ -1.3 x 108](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4e88d270-ad00-4ade-9c4a-d42071e94793%2F9bbd7af2-8235-47d6-b435-01b3b9c774a5%2Fo98ux3_processed.png&w=3840&q=75)
Transcribed Image Text:Two particles, each of mass 7.0 kg, are a distance 3.0 m apart. To bring a third particle, with mass 21
kg, from far away to a resting point midway between the two particles, an external agent must do work equal
to
A
1.3 x 108J
B 6.5 x 10.⁹
C -6.5 x 10.⁹
D
-4.4 x 10.⁹
€ -1.3 x 108
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