illustrated in the figure, a negatively charged particle is released from rest at point B and accelerates until it reaches point A. The mass and charge of the particle are 8.77x10^-4 kg and -4.97x10^-5 C, respectively. Only the gravitational force and the electrostatic force act on the particle, which moves on a horizontal straight line without rotating. The electric potential at A is 36.0 V greater than at B; in other words, Va-Vb= 36.0 V. What is the translational speed of the particle at point A?

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As illustrated in the figure, a negatively charged particle is released from rest at point B and accelerates until it reaches point A. The mass and charge of the particle are 8.77x10^-4 kg and -4.97x10^-5 C, respectively. Only the gravitational force and the electrostatic force act on the particle, which moves on a horizontal straight line without rotating. The electric potential at A is 36.0 V greater than at B; in other words, Va-Vb= 36.0 V. What is the translational speed of the particle at point A?
1:14 PM Wed Mar 17
33% D
+ :
As illustrated in the figure, a negatively charged particle is released from rest at point B and accelerates until it reaches
point A. The mass and charge of the particle are 8.77x10^-4 kg and -4.97x10^-5 C, respectively. Only the gravitational
force and the electrostatic force act on the particle, which moves on a horizontal straight line without rotating. The electric
potential at A is 36.0 V greater than at B; in other words, Va-Vb= 36.0 V. What is the translational speed of the particle at
point A?
A
B
Vg = O mls
%3D
3
Transcribed Image Text:1:14 PM Wed Mar 17 33% D + : As illustrated in the figure, a negatively charged particle is released from rest at point B and accelerates until it reaches point A. The mass and charge of the particle are 8.77x10^-4 kg and -4.97x10^-5 C, respectively. Only the gravitational force and the electrostatic force act on the particle, which moves on a horizontal straight line without rotating. The electric potential at A is 36.0 V greater than at B; in other words, Va-Vb= 36.0 V. What is the translational speed of the particle at point A? A B Vg = O mls %3D 3
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