Problem R: Find the voltage across the resistor 90 A Po1972 Volts B. 1,"--23.67 Volts C....
Derive an expression H(ω) in the form of H(ω) = (A + j B) / (C +
j D), wherein A, B, C and D are functions of R1, R2, L, and C.
R1 + R2 D(1) C Dout(0) L
Problem #2 (20 pts). Anne builds the voltage divider shown to the o right. Values for V-10V±1%, R1=4.0kΩ±1%, and R2- 6.0k 1% are provided. In addition, the partial derivatives with respect to Vi and R2 are given as Ri Vi avo R1Vi aVo aVi R1+R2 and BR2 (Ri+R2)2 Provide answers to the following: (Box all answers) B. Using the equation stated in Part A, calculate the value Vo of in volts. C. Based on the partial derivative method, state the...
1.
a. What is the resistance of the circuit? (Ω/OHM)
b. What is the magnitude of the potential across resistor
R3? (V)
c. What is the magnitude of the current in resistor R3?
(A)
d. What is the magnitude of the potential across resistor
R1? (V)
e. What is the magnitude of the potential across resistor
R2? (V)
f. What is the magnitude of the current through resistor
R1? (A)
g. What is the magnitude of the current through resistor...
Question 21 The voltage drop across R2 = 7 V. Calculate the unknown value for R2. Vs = 13 V Enter your results in Ohms 0 2200 R1 R2 1000 R3 2200 R4 Question 22 Calculate the value of that will operate the lamp in the circuit below. E = 46 V Enter your results in Ohms 0. 1.5W 3V Lamp Question 23 Calculate the total resistance RT in the parallel circuit below. R1 = 6.10 Enter your result in...
1. For the shown circuit with 2 electrical equipment (2 loads), R1 = 60 Ω R2 = 30 Ω ET = Vt = 120 V E: the potential difference in Volts Calculate the following: a) RT (total Resistance) b) IT (Total Current) c) IR1 (Current in equipment R1) d) IR2 (Current in equipment R2) e) VR2 (Voltage across R2) No circuit diagram was given. Just need the calculations from A - E.
3, For the dircuit shown in the faure, find the current in resistor Ru, Let E, -3.0 V, 6 -8.0 V, 640v R, 25 Ω, and R2 50Ω. the current in resistor R1. Let ει 3.0 V, E2-80 v, ε,-4.0v, e1 A) 1.5 A, left B) 0.25 A, right C) 1.6 A, up D) 0.32 A, right E) 0.16 A, left 4-0 Ry 8 Ri 4. For points A & B in the circuit of the previous problem, find the...
Find the decopmosition of R into R1(A, B, C), R2(B, C,D ) and
R3(C, D, E)
Let R(A,B,C,D,E) be a relation with FDs F = {AB-CDAE, C-D, D-E} The decomposition of R into R1(A, B, C), R2(B, C, D) and RP(C, D, E) is (2 Points) Select one: Lossy and Not Dependency Preserving. Lossless and Not Dependency Preserving. Lossy and Dependency Preserving. Lossless and Dependency Preserving.
Problem 19.40 7 of 16 Constants Part A Assume that R1-41 Ω , R: 78 Ω . R: 11 Ω , R1-14 Ω R5 10 Ω , and R6-24 Ω Find the equivalent resistance of the combination shown in (Figure 1). Express your answer in ohms to two significant figures. Figure Submit Request Answer 1 o14> 25 Ω 12Ω 5.0 Ω Part B Find the equivalent resistance of the combination shown in (Figure 2). Express your answer in ohms to...
25 The power (in watt) delivered to resistor R 11 = 4 Ω b) 5.76 c) 10.24 d) 6.76 e) 7.84 = 1.2 A 5, 0n vol) equal 14b 16 )15d) 15.5 is# 0.3 A Rs 10 Ω e) 14.5 a4bSS36d) 5 e) 4.5
R t = i(t) C 2011P E e p gP a P9.09 10ed The voltage applied to this circuit at t 0 (when the switch closes) is v (t) = 75 cos (4,000t - 60°) Volts Also given that R = 400 2 (0hm) and L=75 mH (milli Henry) The initial inductor current is zero for t< 0 The textbook gives you the total response equation as: )_ ?(0-¢)so R2+(w L) Cos(wt+¢-e) -V V m i(t)=itransient(t)+isteady.state(t)=R2 +(wL m - ㅎCOS...