
Determine the complex transfer function T(s) = V/V; for the circuit shown below. Specify it as a function of the complex frequency, s, and the symbols for the resistors and capacitor. On the attached graph, plot the magnitude of the complex transfer function T(jw) in decibels as a function of the frequency f of the source as f varies from 1 Hz to 1 MHz. Assume that the op amp is ideal. Use as the numerical values for the resistors...
Question 15 For the truss shown in the figure below, determine the vertical reaction force at support A 5 kN 3 m 45 1 m 2 m +5 KN + 4.3 kN -3 kN -5 kN Question 16 For the truss shown in the figure below, determine the horizontal reaction force at support D: 5 kN 45° 1 m 2 m + 15 kN - 12.5 kN 0 kN +5 kN Question 17 For the truss shown in the figure...
Design the T-section beam for the following:
Given: f'c=28 MPa fy=420 MPa
Wo 40 kN/m and WL 15 kN/m 2.5 m
Wo 40 kN/m and WL 15 kN/m 2.5 m
500 nF 1. (15 points) The energy stored in the capacitor is zero at the instant the switch is closed. This ideal op amp saturates in 15ms. What is the value of IN10V ON R? V -10V V.5.1 kn R v-4 car- ro 01 2. (30 points) The voltage pulse shown in (a) is applied to the ideal integrating amplifier shown in (b). Assume vo(0)=0. Derive a numerical expressions for vo(t) "(mV) 200 o 250 500 (ms) a) for 0<x<250...
Please answer both if possible, thank you!
18 kN/m 12 kN/m 6 kN/m Fn = 300 N 12.AN/TITTTTTT6kN/m 0.5 m Fc = 225N 3 m .-3 m . 6 m Fig. for Q.2 0.5 m Fig. for Q.1 1. Two forces are acting on Point A along the direction as shown. Convert each force into Cartesian vector form. Show the various steps of your calculation. Then determine the magnitude and coordinate direction angles of the resultant. 15 Points 2. Replace...
2) Two forces P- 18 kN and F 15 kN are applied to the shaft with a diameter of D - 40 mm, as shown. A torque T= 750 N·m is also applied on the free end of the shaft. Determine the location and magnitudes of maximum normal and shear stresses developed in the shaft. For full credit, show your work (40 points). T IP
2) Two forces P- 18 kN and F 15 kN are applied to the shaft...
while the pl plank and speed and pusILIONI.] The 12.2-m crane weighs 18 kN and is lifting a IN load. The hoisting cable (tension T) passes over a pulley at the top of the crane and attaches to an Jectric winch in the cab. The pendant cable (tension 1.), which supports the crane, is fixed to the top of the crane. Find the tensions in the two cables and the force F, at the pivot. edge plan righ cloc pla:...
The complex ion Cu(NH3)42+ is formed in a solution made of 0.0100 M Cu(NO3)2 and 0.300 M NH3. What are the concentrations of Cu2 , NH3, and Cu(NH3)42+ at equilibrium? The formation constant*, Kf, of Cu(NH3)42+ is 1.70 × 1013
k=42, m=18 n=4
11. Let F:R → R be a function such that (t+m)(n+1) (n+ m F(t) = for t <-m, f or-m <t<n. for n<t<k, for t > k. nA - 1 Find A and B knowing that F is the cumulative distribution function of a random variable X such that P(X = k) = . Please provide only the value of parameter B in the space specified below. ANSWER: B= Solution:
Y b = 60 m a = 50 mm D н| P = 15 KN B X 2 P2 = 18 KN Figure (13) 161- For problem Figure (13), at the transverse section of member contains the Points H and K, The value of the normal force is a) -15 kN. b) + 15 kN. c) - 18 kN. d) + 18 kN. 162- For problem Figure (13), at the transverse section of member contains the Points H and K,...