An electron is projected with an intial speed e =190-10 m/s into the uniform fed between the paralel plates in the fligure (Figure 1) Assume that the teld between the plates is uniform and drected vertically dowward, and that the feld outside the plates is zero The electron enters the feld at a point midway behween the plates Part A If the electron just misses the upper plate as it emerges from the feld, find the magnitude of the electric field E= 16.09 • 10 N/C Subit Prenos A N BeestAner Figure 1 of 1 X Incorrect Try Again; 5 attempts remaining Part B 2.00 cm Suppose mat iin the figure Figure 1 the electroni replaced by a proton wth he same ntal speed Wu the proton ht on Vo 1.00 cm E

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### Exercise 21.33+ **Problem Statement:** An electron is projected with an initial speed \( v_0 = 1.50 \times 10^6 \) m/s into the uniform field between the parallel plates in the figure. Assume that the field between the plates is uniform and directed vertically downward and that the field outside the plates is zero. The electron enters the field at a point midway between the plates. **Figure Explanation:** The diagram accompanying the problem shows an electron traveling horizontally into the region between two parallel plates. The plate separation is 1.00 cm, and the length of the plates is 2.00 cm. An electric field \( \mathbf{E} \) points downward between the plates. The electron moves with an initial horizontal velocity \( v_0 \). **Part A:** The task is to find the magnitude of the electric field if the electron just misses the upper plate as it emerges from the field. Formula input and result area: \[ E = \left( \frac{16.09 \times 10^{-6}}{\dots} \right) \text{N/C} \] *Note: The specific value not given in the user's input area is meant to be calculated correctly based on the principles of motion in an electric field.* Status: - Incorrect: Try Again. 5 attempts remaining. **Part B:** Suppose that in the figure the electron is replaced by a proton with the same initial speed. Would the proton hit one of the plates? - Options: Yes / No - Correct: No **Concept Explanation:** - When solving for the electric field \( E \), consider the force on an electron in the electric field and use kinematic equations to determine the trajectory of the electron. - For Part B, consider the difference in charge and mass of the proton compared to the electron. These differences affect the motion of the proton in the electric field. This exercise involves carefully applying principles of electromagnetism and mechanics to determine the trajectory of charged particles in an electric field.