use mesh method to solve for Io
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use mesh method to solve for Io
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- Q1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C. find AIc. Ic=1.5mA at 25°C. Vcc +20v 25°C 65°C 47k 33.9k 55 70 Ico InA 16nA 12knS VBE 0.6 0.5 S1.2kThe Value of R1 is 39.4Ohms. explainaloulated m O1 the value you Up = A cos wt +1o Calaulate maarli)-min(i) =? Use constant voltage drop mad. Don7 to write units. . - 3.7V forget
- Q1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°C, Rf 250k2, Rc=1k and Re-0.5k2. 25°C 65°C +Vcc 55 70 Rf Rc Ico InA 16nA VBE 0.6 0.5 ReE EENG250 Series an A EENG 250 in EENG250 pt=1968118.cmid=11615 My Courses This course on 3 Find the equivalent resistor at the terminal of the voltage source then find the power delivered by the source. red ed out of 15 Q 18 Q 20 Q cion 40 Q V2 12 V 30 Q 30 Q 12 Q Select one: O a. Req=48 0.P=-3W. O b. None of them O c. Reg=36.67 Q.P=-3.92W. O d. Req=61.5 0.P=-2.34W. O e. Req=36 O.P=-4W. Question 4 For this circuit, the values of 11, 12 and V are: A O G 4) ENE TOSHIBA Insert Scroll Lock Del Suppr. Home 0bute A F12 NuA generator rated at 30MVA, 11kV has a reactance of 40%. Calculate its p.u. reactances for a base of 50MVA and 10kV. O 0.606 p.u. O 0.506 p.u. O 0.806 p.u. O 0.706 p.u.
- ciocle with 24mA OF Current Flowing through has a vortage chop of 0.75V. Determine the reverse Saturation Current Is In A. Assume M = 1. Present Using ^ Cxy to answer in scientific notation your For the exponent. A H•A system consists of ,The electric potential opplied to this cell droes o cubie cell, to 1oV from 30OV in one step. •Whot is the hork done? •Whot wald the work done be if it hernt from 3or to 20v and then to lov?For the circuit in Figure: 1) Set up the equation for the upper supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 2) Set up the auxiliary equation for the top supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 3) Set up the equation for the lower supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 4) Set up the auxiliary equation for the lower supermesh. Response format: Ai1 ± Bi2 ± Ci3 ± Di4 = E 5) What is the value of ix in A?
- Solve the beta (3) of Figure 611. Ⓒ328 200 000 239 R1 680kg VCC 18V R2 $3.9KQ Figure 611 VC BVQ1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°C, Rf=250k2, Rc=lk and Re-0.5k2. 25°C 65°C +Vcc 55 70 Rf Rc Ico InA 16nA VBE 0.6 0.5 ReQ1: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc. Ic=1.5mA at 25°C, Rf=250kN, Rc=1k and Re=0.5k2. 25°C 65°C +Vcc 55 70 Rf Rc Ico InA 16nA VBE 0.6 0.5 Re