how to determine parameters for the design of a PIEZOELECTRIC TILE PROTOTYPE FOR THE GENERATION OF ELECTRIC ENERGY THROUGH FOOTPASS TRAFFIC
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how to determine parameters for the design of a PIEZOELECTRIC TILE PROTOTYPE FOR THE GENERATION OF ELECTRIC ENERGY THROUGH FOOTPASS TRAFFIC
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- how to collect information for the design of a PROTOTYPE OF PIEZOELECTRIC TILES FOR THE GENERATION OF ELECTRICAL ENERGY BY PEDESTRIAN TRAFFIC.8. Liquids with solid impurities a) Have higher dielectrie strength b) Of large size have higher dielectric strength c) Have lower dielectric strength as compared to pure liquids d) None of the above 9. Peak to peak ripple is defined as a) the difference between average de voltage and peak value b) the difference between maximum and minimum de voltage c) the difference between maximum ac and average dc voltages d) the difference between ac (rms) and average de voltages 10. In a Cockroft-Walton circuit, input voltage 100 kV load current 25 mA, supply frequency 100 Hz, each capacitor 10 nF. The optimum no. of stages for maximum output voltage is a) 1 b) 2 c) 10 d) 35how to do the resizing of elements for the design of a PIEZOELECTRIC TILE PROTOTYPE FOR THE GENERATION OF ELECTRIC ENERGY THROUGH FOOTPASS TRAFFIC
- Electrical Engineering How to measure the electric field intensity at 2m away from a Parallel coupled microstrip lines in HFSS?With aid of diagrams of MOS capacitor constructions, explain how positive voltage applied to VGS that causes depletion of electrons and a creation of inversion layer.how to calculate the elements for the design of a PIEZOELECTRIC TILE PROTOTYPE FOR THE GENERATION OF ELECTRIC ENERGY THROUGH FOOTPASS TRAFFIC
- The Subject is Basic Electrical Engineering Chapter 15. Conductance, Susceptance and Admittance of AC Circuit.POWER SISTEMS high voltage technlque it is possible to measure pulsed (AND ANSWER THE SAME QUESTION FOR AC AND DC ) high voltages with the help of two spheres of equal radius placed on the same axis. In which case the approxlmate pulse voltage for pulse hlgh voltage , approxlmate voltage value for DC voltage , AND effective value for AC VOLTAGE voltage value that can be measured with such a system with diameters of 500 mm and known spacing between them is 2.5 cm, is given correctly. (Ambient conditions are neglected and take Ed = 30 kV / cm2 k = 0.9) a) 68,65114 kV b) 81.30081 kv c) 97,08737 kv d) 65,35947 kv e) 57.48835 kv f) 46.21612 kv PLEASE ANSWER THE THREE EQUESTION AND THE OPTIONS ARE THE SAME approxlmate pulse voltage for pulse hlgh voltage, approxlmate voltage value for DC voltage , AND effective value for AC VOLTAGE١-The PMSM used in the industry due to: a- Their low noise. b- Their easy control arrangement. c- Their efficiency. 2- The BLDCM used in the industry due a- Their low noise. b- Their easy control arrangement. - Their efficiency. 3- The (PMSM) supplied by: a- DC voltage. b- AC voltage of sinusoidal waveform. C- AC voltage of trapezoidal waveform. Choices
- Explain the given circuit diagram and also explain its functions with suitable examples. Rubrics: Explain the functions of given IC function(s) with suitable example. Write down the formula for charging, discharging time and the frequency.We want to investigate how the field strength will be with air as dielectric and with steatite. A plate capacitor is placed in a 24 kV network between phase and ground. The relative permittivity of air is &=1 and for steatite &-6. The plate capacitor has area = 1m². The distance between the electrodes is 2 mm. Ep = 8.854-10-12 F/m A=1m² d=2mm a) Calculate the maximum field strength in the plate capacitor. (Answer: 9.8kV/mm) b) What is the capacitance of the capacitor if we use steatite? (Answer: C = 26.6nF)What do you understand by Ferranti effect? Subject Power Transmission and Distribution