The unavoidable result would be an electron quickly collapsing in the nucleus. The problem was that an accelerated charge emits electromagnetic waves and, in doing so, loses energy. In both modes it’s possible to interactively change the n value (there’s also an option to change this value to the nearest integer to make the wave a stable standing wave), the wave amplitude and the animation rate.Īccording to Rutherford‘s model the electron orbits around the nucleus like a planet around the sun. The animation will stop and time will be reset at its initial value. It’s however possible to revert the simulation to the finite time mode by pressing the reset button. In this mode the time will go on forever and it’s no more possible to manually move the time slider. The second mode (infinite time) can be started by pressing the Start button below the time slider. Atomic model full#This maximum time value can be changed through the Finite time duration slider that operates on multiple integers values of (six full cycles). In this case the cycle will restart after reaching the maximum time value. Alternatively it’s possible to play the animation with the slider animation controls. To make increasingly finer adjustment to the wave progress it’s possible to press the Alt key or Ctrl+Alt or Ctrl+Shift+Alt keys while moving the time slider. In the first mode it’s possible to move manually the slider. The main controls are the time slider and the n (number of wavelengths in the circle) slider.įor the time there are two possible modes: finite time range and infinite time. Download 2DBWebBohrAtom_Sim.nb (Mathematica notebook)
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