Energy Needed to Ionize a H-atom

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The discussion revolves around calculating the speed required for an electron to ionize a hydrogen atom during a collision. The hydrogen atom is described using the Bohr model, with specific parameters such as the mass of the electron and the radius of its orbit. The initial setup for the calculation involves kinetic and potential energy equations, leading to a derived speed of 3.26e6 m/s. The participant expresses initial uncertainty about the setup but later confirms the approach with guidance from a professor regarding energy conversion to electron volts. The thread highlights the importance of understanding energy interactions in atomic physics.
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Homework Statement



A H-atom when in its lowest energy state consiste of a proton nucelus of charge +e and an electron of charge -e and mass 9.11e-31. In the Bohr model of the atom, the electron moves around the nucleus in an aprrox. circular orbit of radius .51e-10m. The speed of the electron when in this lowest energy orbit is 2.2e6m/s. Determine the speed that another electron far from the hydrogen atom must have in order to ionize the h-atom during a collision. In the final state, the two electrons and proton are considered at rest and very far from each other. Convert the answer to energy units of electron volts.

Homework Equations



K(i)+Ug(i)+Uq(i)+W=K(f)+Ug(f)+Us+Uq(f)+W(friction)

The Attempt at a Solution



I set is up as .5mv(i)^2-(kappa)(e^2)/radius=0. I came up with 3.26e6m/s but one, something about this setup is bugging me and two, how do I convert to electron volts?
 
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Nevermind. After consulting my excellent, omniscient professor, I learned I have the right set up and he explained the electron volt stuff. Thanks!
 
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