1) The 180-lb iron worker is secured by a fall-arrest system consisting of a harness and lanyard AB, which is fixed to the beam. If the lanyard has a slack of 4 ft, determine the average impulsive force developed in the lanyard if he happens to fall 4 feet. Neglect his size in the calculation and assume the impulse takes place in 0.6 seconds. Partial Ans. F = 330 lb

Elements Of Electromagnetics
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1)
The 180-lb iron worker is secured by a fall-arrest system
consisting of a harness and lanyard AB, which is fixed to the
beam. If the lanyard has a slack of 4 ft, determine the average
impulsive force developed in the lanyard if he happens to fall
4 feet. Neglect his size in the calculation and assume the
impulse takes place in 0.6 seconds.
Partial Ans. F = 330 lb
Transcribed Image Text:1) The 180-lb iron worker is secured by a fall-arrest system consisting of a harness and lanyard AB, which is fixed to the beam. If the lanyard has a slack of 4 ft, determine the average impulsive force developed in the lanyard if he happens to fall 4 feet. Neglect his size in the calculation and assume the impulse takes place in 0.6 seconds. Partial Ans. F = 330 lb
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