6) By using the kinetic energy formulas and using electric field knowledge determine the direction and the magnitude of the electric field in this region (Ē=?,V=?,). Make your calculations such that the ions are accelerated in 1 m that is take d=1m.

6) By using the kinetic energy formulas and using electric field knowledge determine the direction and the magnitude of the electric field in this region (Ē=?,V=?,). Make your calculations such that the ions are accelerated in 1 m that is take d=1m.

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Question

Please help me on sixth question according table and figure. Solve it using vectors.

6) By using the kinetic energy formulas and using electric
field knowledge determine the direction and the
magnitude of the electric field in this region
(Ē=?,V=?,). Make your calculations such that the
ions are accelerated in 1 m that is take d=1m.

Expert Solution

Step 1

A moving charge carries kinetic energy in an electric field. And that kinetic energy be defined as,

Step 2

Now the magnitude of the electric field be given as,

Step by step

Solved in 4 steps with 3 images

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