The figure shows two parallel plates that are 2.0 cm apart. The electric field between them is 3.4 × 104 N/C. An electron is launched at a 45° angle and with initial speed v, from the positive plate. What is the maximum V, such that the electron won't hit the negative plate? 2.0 cm 45°

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Chapter1: Units, Trigonometry. And Vectors
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The figure shows two parallel plates that are 2.0 cm apart. The electric field between them is \(3.4 \times 10^4 \, \text{N/C}\). An electron is launched at a \(45^\circ\) angle and with initial speed \(v_0\) from the positive plate. What is the maximum \(v_0\) such that the electron won't hit the negative plate?

**Diagram Explained:**

- There are two parallel plates depicted.
- The top plate is neutral, and the bottom plate is positively charged.
- The distance between the plates is marked as 2.0 cm.
- An electron is shown being launched from the surface of the positive plate at an angle of \(45^\circ\) with an initial velocity labeled as \(v_0\).
Transcribed Image Text:The figure shows two parallel plates that are 2.0 cm apart. The electric field between them is \(3.4 \times 10^4 \, \text{N/C}\). An electron is launched at a \(45^\circ\) angle and with initial speed \(v_0\) from the positive plate. What is the maximum \(v_0\) such that the electron won't hit the negative plate? **Diagram Explained:** - There are two parallel plates depicted. - The top plate is neutral, and the bottom plate is positively charged. - The distance between the plates is marked as 2.0 cm. - An electron is shown being launched from the surface of the positive plate at an angle of \(45^\circ\) with an initial velocity labeled as \(v_0\).
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