A qualitative discussion is presented to highlight the potential applications of this device for a large-area plasma processing application. The magnetic field from the solenoid aligns the magnetic domains inside the iron along the same direction.
If a 34 cm x 50 cm wire loop is placed at a 60-degree angle to the 2-axis before being shifted to a 30-degree angle to the z-axis, what is the difference in flux within the loop Note: 1 Wb T.
#Physics calculator magnetic field current mt radius trial#
Start your trial now First week only 4.99 arrowforward. 1 shows the schematic of cylindrical CCP discharge (1 (a)), discharge schematic showing measurement positions (1 (b)), driving circuit and voltage/current measurements position (1 (c)) along with the field coils position and B-field direction (1 (d)). What is the electric field Skip to main content. With the application of a magnetic field, the EEPF depicts enhancement in the mid-energy range electron population in the peripheral region however, the plasma bulk remains bi-Maxwellian with a higher population of low-energy electrons. Science Physics Part A Suppose you have a magnetic field with a strength of 55 T directed along the z-axis. Solution for A circular ring having a radius of 2.5 cm has a uniform charge of pi nC uniformly distributed along its circumference. Calculate magnetic flux density of the magnetic field at the centre of a circular coil of 50 tunrs, having radius of 0.5 m and carrying a current of 5 A. If it describes a circle of radius 0.1m, then strength of magnetic field. The radial ion flux distribution is uniform within a 5% range. This test consists of Physics, Chemistry, Botany and Zoology questions with. A magnetic field is a region in which magnetic forces act on any of the following: A conductor carrying an electric current. The higher electron temperature in the peripheral region leads to a faster decay in plasma density towards the radial boundary, consistent with the analytical model. It is observed that with an increase in magnetic field strength, the electron temperature in the discharge increases steadily towards the peripheral region however, the plasma density and potential tend to remain maximum at the center. This paper presents the discharge properties of a novel cylindrical Capacitively Coupled Plasma ( CCP) discharge with an axisymmetric magnetic field.
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