A. K. D. Ali, Ismaeel K. Jasim, K. Jasim, Maher A. Hassan
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The Using the technique of (vibration sample Magnometer) (VSM) where the hysteric rings were extracted, magnetic properties of the hysterical ring forms of magnetic affectivity (M s) and magnetic susceptibility (M s) and magnetic delay (M r) relative permeability (μ r) of magnetismThe present study includes the calculation of the electrical and magnetic properties of the C-TABCCO superconducting system in solid-state interaction by adding silver to the first system under pressure of 7 ton / cm2 and the thermodynamic temperature (800 K). The electrical properties are measured using The LCR meter shows that the dielectric constant (K) and the loss factor (D) decrease with increasing frequency and the alternating electrical conductivity (AC) increases with increasing frequency. Therefore, we deduce that the inertial properties and all the samples depend on the addition ratios. The higher the frequency, the better the connectivity and the lower the density. The Using the technique of (vibration sample Magnometer) (VSM) where the hysteric rings were extracted, magnetic properties of the hysterical ring forms of magnetic affectivity (M s) and magnetic susceptibility (M s) and magnetic delay (M r) relative permeability (μ r) of magnetism","PeriodicalId":186251,"journal":{"name":"TECHNOLOGIES AND MATERIALS FOR RENEWABLE ENERGY, ENVIRONMENT AND SUSTAINABILITY: TMREES19Gr","volume":"5 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2019-12-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Manufacture of C-TABCCO superconducting system and study the electrical and magnetic properties\",\"authors\":\"A. K. D. Ali, Ismaeel K. Jasim, K. Jasim, Maher A. Hassan\",\"doi\":\"10.1063/1.5138506\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The present study includes the calculation of the electrical and magnetic properties of the C-TABCCO superconducting system in solid-state interaction by adding silver to the first system under pressure of 7 ton / cm2 and the thermodynamic temperature (800 K). The electrical properties are measured using The LCR meter shows that the dielectric constant (K) and the loss factor (D) decrease with increasing frequency and the alternating electrical conductivity (AC) increases with increasing frequency. Therefore, we deduce that the inertial properties and all the samples depend on the addition ratios. The higher the frequency, the better the connectivity and the lower the density. The Using the technique of (vibration sample Magnometer) (VSM) where the hysteric rings were extracted, magnetic properties of the hysterical ring forms of magnetic affectivity (M s) and magnetic susceptibility (M s) and magnetic delay (M r) relative permeability (μ r) of magnetismThe present study includes the calculation of the electrical and magnetic properties of the C-TABCCO superconducting system in solid-state interaction by adding silver to the first system under pressure of 7 ton / cm2 and the thermodynamic temperature (800 K). The electrical properties are measured using The LCR meter shows that the dielectric constant (K) and the loss factor (D) decrease with increasing frequency and the alternating electrical conductivity (AC) increases with increasing frequency. Therefore, we deduce that the inertial properties and all the samples depend on the addition ratios. The higher the frequency, the better the connectivity and the lower the density. 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Manufacture of C-TABCCO superconducting system and study the electrical and magnetic properties
The present study includes the calculation of the electrical and magnetic properties of the C-TABCCO superconducting system in solid-state interaction by adding silver to the first system under pressure of 7 ton / cm2 and the thermodynamic temperature (800 K). The electrical properties are measured using The LCR meter shows that the dielectric constant (K) and the loss factor (D) decrease with increasing frequency and the alternating electrical conductivity (AC) increases with increasing frequency. Therefore, we deduce that the inertial properties and all the samples depend on the addition ratios. The higher the frequency, the better the connectivity and the lower the density. The Using the technique of (vibration sample Magnometer) (VSM) where the hysteric rings were extracted, magnetic properties of the hysterical ring forms of magnetic affectivity (M s) and magnetic susceptibility (M s) and magnetic delay (M r) relative permeability (μ r) of magnetismThe present study includes the calculation of the electrical and magnetic properties of the C-TABCCO superconducting system in solid-state interaction by adding silver to the first system under pressure of 7 ton / cm2 and the thermodynamic temperature (800 K). The electrical properties are measured using The LCR meter shows that the dielectric constant (K) and the loss factor (D) decrease with increasing frequency and the alternating electrical conductivity (AC) increases with increasing frequency. Therefore, we deduce that the inertial properties and all the samples depend on the addition ratios. The higher the frequency, the better the connectivity and the lower the density. The Using the technique of (vibration sample Magnometer) (VSM) where the hysteric rings were extracted, magnetic properties of the hysterical ring forms of magnetic affectivity (M s) and magnetic susceptibility (M s) and magnetic delay (M r) relative permeability (μ r) of magnetism
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