B47 A submerged wreck is lifted trom a dock basin by means of a crane to which is attached a steel cable 10m long of cross-sectional area 5 cm? and Young's modulus 5 x 10"Nm. The material being lifted has a mass 10*kg and mean density 8000 kg m . Find the change in extension of the cable as the load is lifted clear of the water. Assume that at all times the tension in the cable is the same throughout its length. Density of water = 1000 kg m .
B47 A submerged wreck is lifted trom a dock basin by means of a crane to which is attached a steel cable 10m long of cross-sectional area 5 cm? and Young's modulus 5 x 10"Nm. The material being lifted has a mass 10*kg and mean density 8000 kg m . Find the change in extension of the cable as the load is lifted clear of the water. Assume that at all times the tension in the cable is the same throughout its length. Density of water = 1000 kg m .
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Transcribed Image Text:B47 A submerged wreck is lifted from a dock basin
by means of a crane to which is attached a steel
cable 10m long of cross-sectional area 5 cm?
and Young's modulus 5 x 10" Nm. The
material being lifted has a mass 10* kg and
mean density 8000 kg m '. Find the change in
extension of the cable as the load is lifted clear
of the water.
Assume that at all times the tension in the
cable is the same throughout its length.
Density of water = 1000 kg m .
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