The figure shows an arrangement of two -4.5 nC charged particles, each separated by 5.0 mm from a proton. The two negatively charged particles are held fixed at their locations, and the proton is given an initial velocity as shown. What minimum speed v must the proton have to totally escape from the negatively charged particles? The proton's mass is 1.67×10-27 kg. 5.0 mm 5.0 mm

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The figure shows an arrangement of two -4.5 nC charged particles, each
separated by 5.0 mm from a proton. The two negatively charged particles are
held fixed at their locations, and the proton is given an initial velocity as shown.
What minimum speed v must the proton have to totally escape from the
negatively charged particles? The proton's mass is 1.67×10-27 kg.
5.0 mm
5.0 mm
V
Transcribed Image Text:The figure shows an arrangement of two -4.5 nC charged particles, each separated by 5.0 mm from a proton. The two negatively charged particles are held fixed at their locations, and the proton is given an initial velocity as shown. What minimum speed v must the proton have to totally escape from the negatively charged particles? The proton's mass is 1.67×10-27 kg. 5.0 mm 5.0 mm V
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Step 1

Introduction

Potential energy:- Potential energy is the energy that an object has due to its position relative to other objects, stresses within itself, or other factors.

Kinetic energy:- The energy related to an object's motion is known as kinetic energy. It is the energy that a moving item possesses. 

Given data:-

Charge:- 4.5 nC

The gap between charges:- 5 mm

Mass of proton:- 1.67×10-27kg

Find out:-

What minimum speed v must the proton has to totally escape from the negatively charged particle?

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