Identical 56 uC charges are fixed on an x axis at x = 13.3 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 1.3 J as it passes through the point x = 0, y = 4.0 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? (a) Number i Units (b) Number i Units eTextbook and Media

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**Particle Motion in an Electric Field**

Identical 56 μC charges are fixed on an x-axis at x = ±3.3 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 1.3 J as it passes through the point x = 0, y = 4.0 m.

(a) What is the kinetic energy of the particle as it passes through the origin?

 - [Number] ___ Units: ___

(b) At what negative value of y will the particle momentarily stop?

 - [Number] ___ Units: ___

**References:**
- eTextbook and Media

---

In this exercise, students are asked to calculate kinetic energy and the stopping position of a charged particle moving under the influence of other fixed charges. This question helps in understanding electric fields, forces on charged particles, and energy transformations.

**Note:** No graphs or diagrams are included in this content.
Transcribed Image Text:**Particle Motion in an Electric Field** Identical 56 μC charges are fixed on an x-axis at x = ±3.3 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 1.3 J as it passes through the point x = 0, y = 4.0 m. (a) What is the kinetic energy of the particle as it passes through the origin? - [Number] ___ Units: ___ (b) At what negative value of y will the particle momentarily stop? - [Number] ___ Units: ___ **References:** - eTextbook and Media --- In this exercise, students are asked to calculate kinetic energy and the stopping position of a charged particle moving under the influence of other fixed charges. This question helps in understanding electric fields, forces on charged particles, and energy transformations. **Note:** No graphs or diagrams are included in this content.
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