Addition of a given set of vector is also a vector quantity having magnitude as well as direction.
Calculation for the addition of vector A, B and C is shown below.
What type of transistor amplifier is shown in Fig. 29-19a? 29-3 +Vcc 15 V = 7.5 k R= 1.2 k R, C B= 100 2 = 1.5 k° in 10 mV RE = 360 CE (a) Calculate the following DC quantities in Fig. 29-19a: 29-4 Ves a. b. VE C. d. Vc e. VCE W What type of transistor amplifier is shown in Fig. 29-19a? 29-3 +Vcc 15 V = 7.5 k R= 1.2 k R, C B= 100 2...
rrent in tive at the top. 3.28 For the circuit in Fig. P3.28, find i, and then use cur- rent division to find io. Figure P3.28 15 12 w 212 Sect ²60 120 3.3 125 V 352 2201 3132
1. Three displacement vectors are in x-v plane as shown in the following figure. Find their X- and y-components. c=15m 1 C = 15 m 3 - 10m B = 10 m 30° 30° A=5 m
Problem B.7 Consider two vectors A and B as shown in Fig. B.38. If the magnitude of these vectors is A = 3.5 and B = 6.3 units, respectively, and they make angles a = 45° and B = 32 with horizontal: Fig. 3.38 Problem B.7 (a) Determine the components of vectors A and B in the hori- zontal and vertical directions. (b) Express vectors A and B in terms of their components. (c) Determine the magnitude of vector D...
5.20 The op amp in the circuit shown in Fig, P5.20 is ideal, Calculate v, when v, equals 3 V b) Specify the range of values of vg so that the op amp operates in a linear mode. c) Assume that a's equals 5 V and that the 48n resistor is replaced with a variable resistor. What value of the variable resistor will cause the op amp to saturate? Figure P5.20 48 kΩ 15 kΩ 10 V 30 kΩ 10...
Problem 2.4 For the circuit shown in Fig. 2.4, N, - N,. Determine the voltage V ΙΩ i2 24 60 ΙΩ 2Ω 12Ω j8Ω Fig. 2.4
Determine the force in each member of the scissors truss shown in Fig. 3-21a. State whether the members are in tension or compression. The reactions at the supports are 175 lb to C given. 200 Ib A;-141.4 lb 60° 45 ES 60 E 30 30° 10 ft -10 ft A, 125.4 lb E - 191.0 lb (a) Fig. 3-21 FED FEF E 15° 30 191.0 lb (b) Foc 75° D FoF 639.1 lb (c) 175 lb FCB 45T 639.1 Ib...
Please answer question 9.35. Mis L- Fig. 9-28 Fig. 9-29 9.33. Determine the equation of the deflection curve for the cantilever beam loaded by the concentrated force P as shown in Fig. 9-28. Ans. Ely = -(a – )3 – Pa< x + Pas for 0 << <a; Ely = - Pą2 x + Pap for a < < <L 9.34. For the cantilever beam of Fig. 9-28, take P = 1000 lb, a = 6 ft, and b =...
y P = 35 lips С For the beam and loading shown, determine the deflection at point C. Use E = 29 10° psi. W14 X 30 a L = 15 ft [x = 1, y = 0] [x = 0, y = 0] [x = 0, y = y] dy dy dx dx Ya a 2 ft What is the deflection of the beam at point (in inches)?
8.22 In the phasor-domain shown in Fig. P8.22, V = 120/0° V, I = 0.3/30° A, a = 1000 rad/s, R1 = 200 92, R2 = 200 S2, R3 = 1.2 ks2, L= 0.2 H, and C = 10 uF. Determine the complex power for each passive element, and verify that conservation of energy is satisfied. in hinde Figure P8.22: Circuit for Problem 8.22.