![For Problems 13 to 14: Figure shows an ideal transformer. Vi = 100 cos(8t), N, = 40, N, = 8, R2 = 422 N NE! VOR Problem [13]](http://img.homeworklib.com/questions/04d8a100-045e-11eb-8fc3-1b88e58b9070.png?x-oss-process=image/resize,w_560)
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For Problems 13 to 14: Figure...
For Problems 13 to 14: Figure shows an ideal transformer. Vi = 100 cos(8t), N, =...
For Problems 13 to 14: Figure shows an ideal transformer. Vi = 100 cos(8t), N, = 40, N2 = 8, R, = 422 NE Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current I, .
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, =...
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, = 40, N, = 8, R2 = 412 VAR Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current 1, ·
For Problems 13 to 14: Figure shows an ideal transformer. V, = 100 cos(8t), N, =...
For Problems 13 to 14: Figure shows an ideal transformer. V, = 100 cos(8t), N, = 40, N, = 8, R, = 492 2.- VUR Problem [13] <5 points> Calculate the magnitude of the flux 0. Problem [14] <5 points> Calculate the magnitude of the current ,
The answer is provided but please show work for both problems. Thank you! 16. Draw an...
The answer is provided but please show work for both
problems. Thank you!
16. Draw an ideal transformer impedance-matching circuit, specifying its turns ratio n, to optimally match Rs-5012 to RL-450 Ω. 17. Draw an ideal transformer impedance-matching circuit, specifying its turns ratio n, to optimally match Rs-900 Ω to R, 100 Ω.
Please show all work, will rate and comment. Thank you Electric field in a uniform medium...
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Electric field in a uniform medium is given as Ē = n. (3î +4ỹ)cos(3x10° rt – kız)+n. (+22) cos(6x10° at +187y) Notice that these two waves are at different frequencies and they propagate in different directions. Permeability of the medium is given as u=440 Calculate the relative permittivity of this medium. Calculate the intrinsic impedance of this medium. Calculate k . Calculate the propagation speed of the waves. The magnetic...
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are...
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are two dielectric bricks in the capacitor. I d = 0.2mm V = 5 cos(109) 1 = 5mm 6,1 = 5 2 = 8 w = 2mm W, = 3mm Problem [5] <10 points> Calculate the magnitude of the total current on the capacitor. Problem [6] <10 points> Calculate the magnitude of the displacement current on dielectric brick 1.
please see the chart to solve the problems and show all work. thank you! We were...
please see the chart to solve the problems and show all work. thank
you!
We were unable to transcribe this image2a) From the data in the previous problem, "run" a regression with the dependent variable is Sobin and the independent variable is the NASDAQ 1000. Calculate the Beta for Sobin. Use your figure in a sentence. Is Sobin stock is more or less risky than the NASDAQ 1000? 2b) From the regression, what is the R2 value. Use your figure...
Please show all work! Will rate and comment. Thank you. 9, + -/1 points KatzPSEf1 42.P062....
Please show all work! Will
rate and comment. Thank you.
9, + -/1 points KatzPSEf1 42.P062. My Notes Ask Your Teacher The magnitude of the orbital angular momentum is L-2V14h. What are the possible values of m? (Enter your answers as a comma-separated list.) Need Help?Read It
Please show all work! Will rate and comment thank you. 1. -13 points KatzPSEf1 39.P.046. My...
Please show all work! Will
rate and comment thank you.
1. -13 points KatzPSEf1 39.P.046. My Notes Ask Your Teacher What is the momentum of a proton (mp -1.67 x 10-27 kg) that has a speed of the following? (Enter the magnitudes) (a) 0.0400c kg m/s (b) 0.490c kg m/s (c) 0.820c kg m/s Need Help? ReaeWakeh Watch It
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are...
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are two dielectric slabs stacked in the capacitor. The dielectric slabs are not perfect dielectrics, thus they have finite conductivities. Hint: Notice that electric flux densities in dielectrics 1 and 2 are equal: D-D2 Another hint: You can imagine this structure as two capacitors connected in series. Can you find the voltage Kon capacitor 1. V-4cos(at),o-10,ad /sec, w-o1m, 1:0.ln?, ,-3,e,2-5, ?,-100,?,-200,di-d,-0.002m 82,02 Problem [51 <15...
For Problems 13 to 14: Figure shows an ideal transformer. Vi = 100 cos(8t), N, = 40, N2 = 8, R, = 422 NE Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current I, .
For Problems 13 to 14: Figure shows an ideal transformer. V = 100 cos(8t), N, = 40, N, = 8, R2 = 412 VAR Problem [13] <5 points> Calculate the magnitude of the flux Q . Problem [14] <5 points> Calculate the magnitude of the current 1, ·
For Problems 13 to 14: Figure shows an ideal transformer. V, = 100 cos(8t), N, = 40, N, = 8, R, = 492 2.- VUR Problem [13] <5 points> Calculate the magnitude of the flux 0. Problem [14] <5 points> Calculate the magnitude of the current ,
The answer is provided but please show work for both
problems. Thank you!
16. Draw an ideal transformer impedance-matching circuit, specifying its turns ratio n, to optimally match Rs-5012 to RL-450 Ω. 17. Draw an ideal transformer impedance-matching circuit, specifying its turns ratio n, to optimally match Rs-900 Ω to R, 100 Ω.
Please show all work, will
rate and comment. Thank you
Electric field in a uniform medium is given as Ē = n. (3î +4ỹ)cos(3x10° rt – kız)+n. (+22) cos(6x10° at +187y) Notice that these two waves are at different frequencies and they propagate in different directions. Permeability of the medium is given as u=440 Calculate the relative permittivity of this medium. Calculate the intrinsic impedance of this medium. Calculate k . Calculate the propagation speed of the waves. The magnetic...
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are two dielectric bricks in the capacitor. I d = 0.2mm V = 5 cos(109) 1 = 5mm 6,1 = 5 2 = 8 w = 2mm W, = 3mm Problem [5] <10 points> Calculate the magnitude of the total current on the capacitor. Problem [6] <10 points> Calculate the magnitude of the displacement current on dielectric brick 1.
please see the chart to solve the problems and show all work. thank
you!
We were unable to transcribe this image2a) From the data in the previous problem, "run" a regression with the dependent variable is Sobin and the independent variable is the NASDAQ 1000. Calculate the Beta for Sobin. Use your figure in a sentence. Is Sobin stock is more or less risky than the NASDAQ 1000? 2b) From the regression, what is the R2 value. Use your figure...
Please show all work! Will
rate and comment. Thank you.
9, + -/1 points KatzPSEf1 42.P062. My Notes Ask Your Teacher The magnitude of the orbital angular momentum is L-2V14h. What are the possible values of m? (Enter your answers as a comma-separated list.) Need Help?Read It
Please show all work! Will
rate and comment thank you.
1. -13 points KatzPSEf1 39.P.046. My Notes Ask Your Teacher What is the momentum of a proton (mp -1.67 x 10-27 kg) that has a speed of the following? (Enter the magnitudes) (a) 0.0400c kg m/s (b) 0.490c kg m/s (c) 0.820c kg m/s Need Help? ReaeWakeh Watch It
For Problems 5 to 6: Figure shows a capacitor connected to a voltage source. There are two dielectric slabs stacked in the capacitor. The dielectric slabs are not perfect dielectrics, thus they have finite conductivities. Hint: Notice that electric flux densities in dielectrics 1 and 2 are equal: D-D2 Another hint: You can imagine this structure as two capacitors connected in series. Can you find the voltage Kon capacitor 1. V-4cos(at),o-10,ad /sec, w-o1m, 1:0.ln?, ,-3,e,2-5, ?,-100,?,-200,di-d,-0.002m 82,02 Problem [51 <15...
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