1. a. Townsend for T = 2930K and p = 760 mmHg in a uniform electric field of E = 25 kV / cm. Calculate the first ionization coefficient. In the same conditions, in line with the electric field 2 Calculate the number of electrons that an electron with cm path will create by multiplying. b. T = 14 For oC and p = 768 mmHg, a = 2 cm aperture, smooth area puncture voltage, the critical pressure, minimum puncture stress, and puncture site strength to Townsend Theory. Calculate according to. c. In the b-option, positive ions that are assumed to be located in a sphere of r = 0.001 cm Calculating the intensity of the area it will create and comparing it with the external area, Please examine that it will not happen. D. According to the channel theory, under the b-option, Calculate (a.a = 20) (A = 24.4 1 / cm.mmHg, B = 341.6 V / cm.mmHg, 1 = 1/5000 for T = 2930K). 1. a. Townsend for T = 2930K and p = 760 mmHg in a uniform electric field of E = 25 kV / cm. Calculate the first ionization coefficient. In the same conditions, in line with the electric field 2 Calculate the number of electrons that an electron with cm path will create by multiplying. b. T = 14 For oC and p = 768 mmHg, a = 2 cm aperture, smooth area puncture voltage, the critical pressure, minimum puncture stress, and puncture site strength to Townsend Theory. Calculate according to. c. In the b-option, positive ions that are assumed to be located in a sphere of r = 0.001 cm Calculating the intensity of the area it will create and comparing it with the external area, Please examine that it will not happen. D. According to the channel theory, under the b-option, Calculate (a.a = 20) (A = 24.4 1 / cm.mmHg, B = 341.6 V / cm.mmHg, 1 = 1/5000 for T = 2930K)