A 1.25 m long cable has a diameter 3.50 mm with a Young's Modulus, E, of 9.75 x 10⁹ N/m². When the wire is placed under tension, it experiences a stress of 202.52 x 106 N/m², the length of the cable extends by 36.35 mm. Calculate the force that the cable experiences under tension and the strain energy density (U/V) due to deformation. Give your answers in newtons (N) to 2 decimal places for the force; and in joules per cubic metre (J/m³) for the strain energy density to 2 decimal places. Assume the cable is solid and the material is homogeneous.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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A 1.25 m long cable has a diameter 3.50 mm with a Young's Modulus, E, of
9.75 x 10⁹ N/m². When the wire is placed under tension, it experiences a stress of
202.52 x 106 N/m², the length of the cable extends by 36.35 mm. Calculate the
force that the cable experiences under tension and the strain energy density (U/MV)
due to deformation. Give your answers in newtons (N) to 2 decimal places for the
force; and in joules per cubic metre (J/m³) for the strain energy density to 2 decimal
places. Assume the cable is solid and the material is homogeneous.
Transcribed Image Text:A 1.25 m long cable has a diameter 3.50 mm with a Young's Modulus, E, of 9.75 x 10⁹ N/m². When the wire is placed under tension, it experiences a stress of 202.52 x 106 N/m², the length of the cable extends by 36.35 mm. Calculate the force that the cable experiences under tension and the strain energy density (U/MV) due to deformation. Give your answers in newtons (N) to 2 decimal places for the force; and in joules per cubic metre (J/m³) for the strain energy density to 2 decimal places. Assume the cable is solid and the material is homogeneous.
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