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![Two charged particles are constrained to move along the x-axis. Particle one has a mass m₁ = 1.95 g, charge 91 = 15.0 μC, and is fired at a velocity ₁ = 16.01 m/s straight at particle two a long
distance away. Particle two is originally stationary but free to move, and has a mass m₂ = 5.25 g, and charge q₂ = 8.50 μc.
(a) At the instant of closest approach, both particles will be moving at the same velocity. Find this velocity. (Enter your answer in m/s, in the i direction.)
i m/s
(b) Find the distance of closest approach (in m).
m
After the Interaction, the particles will move far apart again. At this time, do the following.
(c) Find the velocity of particle one. (Enter your answer In m/s, In the î direction.)
i m/s
(d) Find the velocity of particle two. (Enter your answer in m/s, in the i direction.)
î m/s](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F25a28984-cba4-4cb0-9e5a-78503ee95d85%2F338c39c9-f9c1-458e-a389-00a8190c01a6%2Fk84xdy_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Two charged particles are constrained to move along the x-axis. Particle one has a mass m₁ = 1.95 g, charge 91 = 15.0 μC, and is fired at a velocity ₁ = 16.01 m/s straight at particle two a long
distance away. Particle two is originally stationary but free to move, and has a mass m₂ = 5.25 g, and charge q₂ = 8.50 μc.
(a) At the instant of closest approach, both particles will be moving at the same velocity. Find this velocity. (Enter your answer in m/s, in the i direction.)
i m/s
(b) Find the distance of closest approach (in m).
m
After the Interaction, the particles will move far apart again. At this time, do the following.
(c) Find the velocity of particle one. (Enter your answer In m/s, In the î direction.)
i m/s
(d) Find the velocity of particle two. (Enter your answer in m/s, in the i direction.)
î m/s
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