The figure on the left, below, shows a non-uniform bent rod with a mass of 5 kg. Your jobis to determine the location of the center of gravity of this rod. You design an experiment:you connect a pin and cable to the rod such that it safely stays in static equilibrium undera force P that you apply. Then, you apply forces between 0-100 N, and measure the tensionforce on the cable using a cable tension meter. The results of your experiment are shownin the figure, on the right. Using this experiment, calculate (approximately) the horizontaldistance (x in the figure) between point A and the center of gravity G of the bent rod.BCOI20 cm20 cm60°D50 cmTension measurement [N]6050403020-10010real dataestimated fit203040ܐܐܝ50P[N]60708090100

Answered: Image /qna-images/answer/d181571a-7c3c-4f04-8a2f-1f1dfb5b5f91.jpg

Answered: The figure on the left, below, shows a…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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As shown below, a sign weighing 420 N is hanging (via a wire) from a uniform 289 N beam of length L. Additionally, the beam is attached to a cable that makes an angle (= 45*) with the beam. 0.2 L 0.3L Determine the tension in the cable and the magnitude & direction of the force the hinge (the orange circle) exerts on the beam. Cable tension- Hinge force [ Direction of hinge force- relative to the vertical in quadrant (4
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Figure below shows a system with two weights on a rotating shaft. For the given data below, determine the mR (mass-radius) product and angles of the balance weights needed to dynamically balance the system. W1 W1 a 3 W2 W2 Given: W1 = 60 N W2 = 80 N R1 = 100 mm R2 = 150 mm 01 = 30 deg 02 = 270 deg a = 230 mm b = 70 mm %3D %3!
Please find the Grashof classification and the Barker classification of the two four-bars: (NOTE: distances are in non-dimensional units. Can use inches or cm) P1) L1=d=4, theta1=0 degrees, L2=a=1.6, theta2=60 degrees, L3=b=5.5, L4=c=4.5 P1) L1=d=2.5, theta1=0 degrees, L2=a=2, theta2=45 degrees, L3=b=1.5, L4=c=1.5 Please also draw the four-bars to estimate the unknown angles theta3 and theta4.
Question 2 You are playing basketball with some friends at the park when Nate Robinson, the 180 Ib(f) former New York Knicks point 0.12 m E guard and only three-time winner of the NBA Slam Dunk Contest, stops by. You are F 0.15 m 0.48 m H A curious about the forces the members of 0.48 m the hoop apparatus experience during a dunk. If Nate dunks and hangs on the rim of the hoop, find the forces supported by each 0.12 m I (B WN -0.6 m –→-– 0.75 m- member of the apparatus and the support reactions at D. Member IJ is a hand crank which can be used to adjust the height of 1.2 m the rim, and it acts as a two-force member. 3 m Post ABCD weighs 400 N and has a center of mass at point C. The assembly EFGH weighs 220 N and has a center of mass at point G. Only magnitudes are givern below, but you must still speci fy dicection based on your free bedy diagrams: Dx : 224 N Dya 1588N Mo = 1867 Nm Bx = 1031 N| By a 6lo6l N| Fx# 1031N| Fy e1992N 1.5 m 1.2 m D
Q3. As shown on the right in image below, the force Facting on the box varies with displacement s, and the coefficient in the image, C = 14. Determine the work done by force Fto the box when the box has displaced s = 1.9 m. Please pay attention: the numbers may change since they are randomized. Negative sign must be included if the work done is negative. Your answer must include 2 places after the decimal point, and proper SI unit. F (N) F 5 3 S 4 C s (m) 1 2
7. The arrangement in the drawing shows a block (mass = 14.0 kg) that is held in position on a frictionless incline by a cord (length = 0.582 m). The mass per unit length of the cord is 1.30 x 10-2 kg/m, so the mass of the cord is negligible compared to the mass of the block. The cord is being vibrated at a frequency of 166 Hz (vibration source not shown in the drawing). What is the smallest angle 0 between 15.0° and 90.0° at which a standing wave exists on the cord?
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Needs Complete typed solution with 100 % accuracy.
1. For this series of 4 questions, a rider rides in a car that is connected to a 4-m rod, and rotates about the z axis. The rod of negligible mass is subjected to a constant couple moment of M, and the engine of the car supplies a traction force of F. Neglect the size of the car. You will be asked to solve for different things. Please pay attention: the numbers may change from problem to problem since they are randomized. 3) If the rod is subjected to a constant couple moment of M = 840 N•m, and the engine of the car supplies a traction force of F=11•TN to the wheels, where t is in seconds, what is the magnitude of the angular impulse from the moment and the force to the car-rider system in kg•m2/s from t = 0 to t= 4.9 s? Your answer must include 1 place after the decimal point. 4 m M F Your Answer: Answer

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