5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It can be charged until the electric field at the surface reaches the dielectric strength of dry air (3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an electron, becomes a positive ion, and is accelerated away from the globe. Assuming no collisions, how fast will the nitrogen ion be moving when it reaches infinity?

5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It can be charged until the electric field at the surface reaches the dielectric strength of dry air (3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an electron, becomes a positive ion, and is accelerated away from the globe. Assuming no collisions, how fast will the nitrogen ion be moving when it reaches infinity?

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Question

5. The spherical globe of the van de Graaf generator in Regener Hall has a radius of 15 cm. It
can be charged until the electric field at the surface reaches the dielectric strength of dry air
(3E6 N/C). Suppose that it is positively charged. A nitrogen atom at the surface loses an
electron, becomes a positive ion, and is accelerated away from the globe. Assuming no
collisions, how fast will the nitrogen ion be moving when it reaches infinity?

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