TION 3-2 Application of Ohm's Law 4. Determine the current in each case. (a) V= 5...
I need step by step calculation!
Ohm's Law A resistor rated at 250 k Ω is connected across two D cell batteries (each 1 .50 V) in series, with a total voltage of 3.00 V. The manufacturer advertises that their resistors are within 5% of the rated value. What are the possible minimum current and maximum current through the resistor?
calculate in ohm's
determine the right direction of the current with a
diagram
Application of Kirchfoff's Laws 1 kg = 100 & 70.0 V 3.00 kg M Eg RS 60.0 V E 80.0 V w Rg 4.00 kg 2.00 kg R; 1. Calculate all currents in the circuit shown. 2. Calculate the voltage drops in each of the resistors Note: It must show all the algebraic procedure in the solution of the generated equations, as well as the direction of...
only question 5, with details please.
thank you
4. Determine the level of V. for each network of Fig. P4. "OV 20 t 10mA 2210 220 20 V 30V Si 10 Vo 5. For the network of Fig. P6, sketch Voir and determine Vde. a. Given P 14 mW for each diode at Fig. P6, determine the maximum current rating of each diode (using the approximate equivalent model). b. Determine Imex for the parallel diodes. c. Determine the current through...
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Using Ohm's Law, the answer for 2 is: (don't need an answer for
number 3)
4)
R1 V. + R2 12 R3 https://drive.google.com/file/d/1WJUWDo8q7wGCQmwBgMvR04B_SY-MNJNN/view?usp=sharing Consider the circuit in Figure 2. We will assume that both the power supply's potentials V and V, along with the resistors R, through R3 are known quantities where the currents flowing through the circuit are unknown. Since there are three unknown currents in this circuit, three linearly independent equations are needed in order...
D 6.112 The MOSFET in the circuit of Fig. P6.112 has = 5 mA/V, and V, = 40 V. (a) Find the values of Rs,RD, and RG so that ID=0.4 mA, the largest possible value for R is used while a maximum signal swing at the drain of +0.8 V is possible, and the input resistance at the gate is 10 MS2. Neglect the Early effect. (b) Find the values of gm and r, at the bias point. (c) If...
3. What is the current in the 15-Ω resistor when c-90 V? 20Ω d. 0.26A e. 0.60 A a. 0.20 A b. 0.30 A c. 0.10 A 4. Determine ε when 1-0.50 A and R-12 Ω. 2R 2R a 12 V b. 24 V 30 V d, 15V e. 6.0 V What is the potential difference Va-VA when 1-0.50 A in the circuit segment shown below? 10Ω 162 15 V a. -28 V b. +2.0 V e. +28 V e....
1.0 kn. RE-390 Ω, r-15 Ω. and ßac-75. 5. For a common-emitter amplifier, Rc Assuming that Rg is completely bypassed at the operating frequency, the voltage gain is (a) 66.7 (d) 75 (b) 2.56 (c) 2.47 6. In the circuit of Question 5, if the frequency is reduced to the point where Xctbypass) RE, the voltage gain (a) remains the same (b) is less (c) is greater 7. In a common-emitter amplifier with voltage-divider bias, Rimlbase) 68 k2, Ri 33...
(d) A 100 V, 4.9 A, 50000 rpm motor used for an application that requires a continuous torque of 0.75 Nm at a speed of 2750 rpm. The peak torque required for acceleration is 6 Nm. The motor has speed constant, Kg = 0.183 V/rad/s, armature resistance, Ra= 1.42, and rated torque, T, = 0.86 Nm. The torque-speed characteristic is also shown as in Figure Q1. i. Determine minimum armature voltage required for this application. ii. Discuss whether the motor...
WNULS for Integrated Systems WORKBOOK Series/Parallel Circuit Voltage and Current. Determine the unknown quantities. 1. 1,= _MA R = 20 A 2. 1= Rs - 500 MAMA Er-1000 sti Er 100V Rx = 25 R = 10 km Eracov] Toka R2-500 R - 500 R = 100 16611 - 3. E,= v 4. 1,= — A R, 500 Ri - 16 W R2-200 R 800 R, - 600 W R4-2400 ANN 5. E=_V 6. E,= _ V R. 50 AM...
(1) Determine the working state of ideal diode D. (2) Determine
IB (the base current). (3) Determine the voltage at the collector
terminal.
5. Consider the circuit consisting of one ideal diode D and one BJT shown in Figure Q4, B = 100, V BE=0.7. [18 marks] > +15 V B = 100 VBE = 0.7 V R1 Bioko 40 R$ 1k2 Rs ç 10 Kot a w 5002 R, B 22 - Vin R₂ ²5kg REB 1ks + 01...