บทคัดย่อ การศึกษาวิจัยเรื่อง ประสิท

Abstract Efficiency studies, analysis of the charge against the mass of the electron-type hem home los khoi. It is intended to find the charge on the electron's mass by using magnetic address from hem Hotel los khoi. And for the efficiency of early magnetic field and the appropriate voltage for the battery: the mass of an electron. By decreasing electron movement in a circle in a constant magnetic field from hem Hotel los khoi. 2 cm, 3 cm, 4 cm and 5 cm corresponds to the energy of the electrons from the origin by an electric voltage adjustment range 80 – 350 V. The results were as follows:
.Magnetic moments and the appropriate voltage for the battery: the mass of an electron (e/m) In the range of 80 to 350 V voltage V value charge: the mass of an electron, measured at most equal to 2.5825 x 1011 C/kg at 80 V voltage per battery charge and mass of the electron, which measured at least equal to the C/x 1011 kg 1.6900 voltage 140 V, with average 1.8386 x 1011 (C/kg)
.The charge against the mass of electrons measured with universal values in the range-90 to 350 V V does not differ almost everywhere-except that the voltage V 80. 0.5
performance during the magnetic field and the appropriate voltage to find the charge on the electron mass of 99% or higher, in the range of 250 to 210-330 and 350 V to V
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Abstract of
the research Performance analysis of the electron charge to mass Levon PEST one in Holyoke. Aims To determine the charge to mass of an electron by a uniform magnetic field of Levon PEST one in Holyoke. To compare the charge to mass of an electron with the international standards. And to determine the efficiency of the magnetic field and the electric potential in finding the appropriate charge per mass of the electron. The electrons moving in a circle in a constant magnetic field of Levon PEST one in Holyoke. To adjust the magnetic field in orbit with a radius of 2 cm, 3 cm, 4 cm and 5 cm line with the energy of the electrons from the source. By adjusting the voltage range 80-350 V findings are the following.
to the magnetic field and the electric potential of finding the mass of the electron charge (e / m) in the voltage range 80. V to 350 V charge per mass of the electron is measured is equal to 2.5825 x 1011 C / kg at a voltage 80 V and the charge per mass of electrons measured at least equal to 1.6900 x 1011 C / kg the difference. voltage 140 V with an average of 1.8386 x 1011 (C / kg).
fee charged per mass of the electron is measured against the standards in a range of voltages from 90 V to 350 V no differences almost every potential exception. where potential 80 V charge per mass of electrons is different from the standard significance level. 0.05
effective in the magnetic field and the electric potential in finding the mass of an electron charge at 99% and above in the voltage range 210 to 250 V and 330 to 350 V.

Abstract
The research about Performance analyzer on the mass of the electron charge type Solheim โฮลซ / quoit objectives To find a charge on the mass of the electron by magnetic field uniformity of the Solheim โฮลซ / waitAnd to find the efficiency in the magnetic field and voltage optimization in finding the วลข charge two electrons The electronic charge circular magnetic field constant from the Solheim โฮลซ / wait2, CM3 cm 4 cm 5 cm, and consistent with the energy of the electrons from the source By adjusting the voltage during 80 - 350 V results as follows:
The magnetic field and voltage optimization in determination of charge to mass of the electron (E / M) is in the range of voltage 80 V to 350 V Charge to mass of the electron at most equal to 25825 x 1011 C / kg voltage 80 V And the charge on the mass of the electron measured less equal 1.6900 x 1011 C / kg voltage 140 V with average value 1.8386 x 1011 (C / kg)
On the mass of the electron charge measured with international standard in the voltage at the 90 V to 350 V no different in almost every voltage Except for the voltage 80 V005
efficiency in the magnetic field and voltage optimization in determination of electronic charge mass paths, Ron at the 99% above is in the range of voltage 210 to 250 V And the 330 to 350 V