By using the kinetic energy formulas from the first semester and using electric field knowledge determine the direction and the magnitude of the electric field in this region (?⃗???=?, ????=?,). Make your calculations such that the ions are accelerated in 1 m that is take ????=1 ?. You may need to use some formulas from first semester again. 7. What should be the power of the voltage supply that we will use in the acceleration region?

By using the kinetic energy formulas from the first semester and using electric field knowledge determine the direction and the magnitude of the electric field in this region (?⃗???=?, ????=?,). Make your calculations such that the ions are accelerated in 1 m that is take ????=1 ?. You may need to use some formulas from first semester again. 7. What should be the power of the voltage supply that we will use in the acceleration region?

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Question

6. By using the kinetic energy formulas from the first semester and using electric field knowledge determine the direction and the magnitude of the electric field in this region (?⃗???=?, ????=?,). Make your calculations such that the ions are accelerated in 1 m that is take ????=1 ?. You may need to use some formulas from first semester again.

7. What should be the power of the voltage supply that we will use in the acceleration region?

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