A hydrogen isotope separator contains positively ionized hydrogen H^1, with isotope of hydrogen, Deuterium D^2, and other heavy particles, and the ions were released in a potential difference of 200 Volts. The strong magnetic field of 1.4x10^-2 Tesla (out of the page), bends the ions and Deuterium is collected on separate ionic trap as shown in the figure. (Masses MH1=1.67x10^-27 kg, MD2 = 2* MH1, Q(H1, D2) = 1.6x10^-19 C) What are the velocities of the Deuterium when exiting the plates, in unit of 10^5 m/s?

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### Diagram Explanation The image depicts a diagram related to electrostatics or electromagnetism, illustrating the concept of voltage and electric fields. - **Components:** - Two parallel plates, labeled with a positive (+) and negative (-) sign at the top, indicating a voltage difference (\( \Delta V \)) across them. - A red dot near the positive plate, representing a charged particle or point of reference. - A line labeled \( d \) connecting the charges to the detector, showing the distance between the plates. - A "Detector," placed within the field between the plates. - **Electric Field Lines:** - Curved lines emanating from the positive plate and terminating at the negative plate, illustrating the electric field lines. - Blue dots are scattered around these lines, symbolizing the presence of an electric field. ### Explanation of the Phenomenon This diagram represents a basic setup of an electric field created by two parallel plates with a potential difference. The electric field lines show the direction of the force that a positive charge would experience in this field. The detector is likely used to measure or observe the characteristics of the electric field such as strength or changes in the field due to external influences. These concepts are foundational in understanding electrostatics, capacitors, and general electrical forces.