In a glass bulb filled with gaseous neon two metal plates are used as electrodes separated by a distance d the linear dimensions of the plates. Ionization energy for neon atom is Eo = 21.5 eV, average distance travelled by an electron between two consecutive collisions with neon atoms is I 0.4 mm and charge on an electron is e =-1.6 x 10-19 C. How much potential difference between the electrodes should be applied to initiate a discharge process? Ps 4 mm that is much smaller than %3D Egc
In a glass bulb filled with gaseous neon two metal plates are used as electrodes separated by a distance d the linear dimensions of the plates. Ionization energy for neon atom is Eo = 21.5 eV, average distance travelled by an electron between two consecutive collisions with neon atoms is I 0.4 mm and charge on an electron is e =-1.6 x 10-19 C. How much potential difference between the electrodes should be applied to initiate a discharge process? Ps 4 mm that is much smaller than %3D Egc
Chemistry
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ISBN:9781305957404
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Chapter1: Chemical Foundations
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Transcribed Image Text:6. In a glass bulb filled with gaseous neon two metal plates are used as
electrodes separated by a distance d=4 mm that is much smaller than
the linear dimensions of the plates. Ionization energy for neon atom is
Eo = 21.5 eV, average distance travelled by an electron between two
consecutive collisions with neon atoms is I= 0.4 mm and charge on an
electron is e =-1.6 x 10-19 C. How much potential difference between the
electrodes should be applied to initiate a discharge process? Ans: Egd
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