Identical 50 uC charges are fixed on an x axis at x = +2.9 m. A particle of charge q = -14 µC is then released from rest at a point on the positive part of the y axis. Due to the symmetry of the situation, the particle moves along the y axis and has kinetic energy 1.1 J as it passes through the point x = 0, y = 3.7 m. (a) What is the kinetic energy of the particle as it passes through the origin? (b) At what negative value of y will the particle momentarily stop?

Identical 50 uC charges are fixed on an x axis at x = +2.9 m. A particle of charge q = -14 µC is then released from rest at a point on the positive part of the y axis. Due to the symmetry of the situation, the particle moves along the y axis and has kinetic energy 1.1 J as it passes through the point x = 0, y = 3.7 m. (a) What is the kinetic energy of the particle as it passes through the origin? (b) At what negative value of y will the particle momentarily stop?

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Question

Please type the final answer instead of writing thanks

**Problem Statement:**

Identical 50 µC charges are fixed on an x-axis at x = ±2.9 m. A particle of charge q = -14 µC is then released from rest at a point on the positive part of the y-axis. Due to the symmetry of the situation, the particle moves along the y-axis and has kinetic energy 1.1 J as it passes through the point x = 0, y = 3.7 m.

**Questions:**
(a) What is the kinetic energy of the particle as it passes through the origin?
(b) At what negative value of y will the particle momentarily stop?

**Solution Input Fields:**

(a)
- Number: ____
- Units: (dropdown menu)

(b)
- Number: ____
- Units: (dropdown menu)

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