Wanda has shrunk Timmy down to a very small size so that he can study for his science test. He observes a charge of -4.255x10^-6C. that starts at rest in a region of constant, uniform electric field. Assume gravitational effects are negligible. At a time of 12.45s after the charge starts from rest, Wanda measures that the charge has a kinetic energy of 2.996x10^-6J. What would be the potential difference, in volts, the charge will move through after 8.310s?

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Wanda has shrunk Timmy down to a very small size so that he can study for his science test. He observes a charge of
-4.255x10^-6C. that starts at rest in a region of constant, uniform electric field. Assume gravitational effects are negligible.
At a time of 12.45s after the charge starts from rest, Wanda measures that the charge has a kinetic energy of
2.996x10^-6J. What would be the potential difference, in volts, the charge will move through after 8.310s?
Transcribed Image Text:Wanda has shrunk Timmy down to a very small size so that he can study for his science test. He observes a charge of -4.255x10^-6C. that starts at rest in a region of constant, uniform electric field. Assume gravitational effects are negligible. At a time of 12.45s after the charge starts from rest, Wanda measures that the charge has a kinetic energy of 2.996x10^-6J. What would be the potential difference, in volts, the charge will move through after 8.310s?
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