MATERIALS SCIENCE+ENGINEERING-EPUB CARD
10th Edition
ISBN: 9781119405474
Author: Callister
Publisher: WILEY
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Q1: determine the area of steel for the slab that rests on brick walls and is shown in the figure.
Use the following data: f'c = 25 MPa, fy = 420 MPa, L.L. = 1.5 kN/m², D.L. = 3 kN/m²
(without self-weight).
Rate from (1 to 4) your ability to solve the problem
7 m
0.3 m
0.3 m
Q:
A rectangular waveguide with dimensions a = 2.5 cm, b = 1 cm is to operate at 15 GHz. σ =
0, E4, μ = 1
1- At which frequencies this type of TL (transmission line) operate ?
2- Why this this type is used in such frequencies?
3- Calculate phase constant for TE10 mode.
4- Calculate the phase velocity and wave impedance for the same mode.
A rigging job calls for lifting a structure that weighs 150 tons. Two cranes are available, one with a rated capacity of 85 tons and the other with a rated capacity of 120 tons. The total weight of the rigging required to make the lift is 15 tons, of which 10 tons is to be carried by the larger craneand 5 tons is to be carried by the smaller crane. If the cranes are to be loaded in proportion to their net capacities, what should be the approximate net load on the 120-ton crane?
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- K Q1/ For the system G(s)= (s+2)(s+4)(s+5) H(s)=1 a. Draw the Bode log-magnitude and phase plots. b. Find the range of K for stability from your Bode plots. c. Evaluate gain margin, phase margin, zero dB frequency, and 180° frequency from your Bode plots for K = 200arrow_forwardQ3/A unity-feedback system with the forward transfer function S(S+7) is operating with a closed-loop step response that has 15% overshoot. Do the following: a. Evaluate the settling time. b. Design a PD compensator to decrease the settling time by three times.arrow_forwardThe switch in Fig.1 has been closed for a long time. It opens at t = Find i(t) for t > 0. 50 www 1.5 H m t=0 10 Ω 9A 0.arrow_forward
- I need detailed help solving this exercise from homework of Engineering Mathematics II.I do not really understand how to do, please do it step by step, not that long but clear. Thank you!P.S.: Please do not use AI, thanks!arrow_forwardK Q2/ Consider the system G(S) H(S)=1.5 0.4923. S(S+1)(S+2) a. Evaluate the steady-state error for a unit ramp input. b. Design a lag compensator to improve the steady-state error by a factor of 10(increase the static velocity error constant Kv to about 10 times) to get a new dominant closed-loop poles. s=-0.3± j0.55. place the zero of the lag compensator at s=-0.05 c. if R1= 10K, R2=5K2, R3= 10K2 design the lag compensator using Op amparrow_forwardIf the switch in Fig. 4 has been open for a long time and is closed at t = 0, find vo(t). t=0 292 ww + ΔΩ 3F= Vo 12 Varrow_forward
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