The figure shows a metal hanging by a thin wire from a floating wood block. The wood block has a specific gravity Sb =0.25, a square base of 80 mm x 80 mm and height of 15 mm. The metal has a volume of 8000 mm^3. Using a unit weight of water 9800 kN/m^3 and g=9.80 m/s^2, find the tension in the thin wire in Newton. Write your answer in three decimal places.
The figure shows a metal hanging by a thin wire from a floating wood block. The wood block has a specific gravity Sb =0.25, a square base of 80 mm x 80 mm and height of 15 mm. The metal has a volume of 8000 mm^3. Using a unit weight of water 9800 kN/m^3 and g=9.80 m/s^2, find the tension in the thin wire in Newton. Write your answer in three decimal places.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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6.) The figure shows a metal hanging by a thin wire from a floating wood block. The wood block has a specific gravity Sb =0.25, a square base of 80 mm x 80 mm and height of 15 mm. The metal has a volume of 8000 mm^3. Using a unit weight of water 9800 kN/m^3 and g=9.80 m/s^2, find the tension in the thin wire in Newton. Write your answer in three decimal places.
fluid
Transcribed Image Text:oil surface
3 mm
15 тm
wood
thin wire
oil, s = 0.85
metal
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Transcribed Image Text:2
The figure shows a metal hanging by a thin wire
from a floating wood block. The wood block has a
specific gravity Sb =0.25, a square base of 80 mm
x 80 mm and height of 15 mm. The metal has a
volume of 8000 mm^3. Using a unit weight of
water 9800 N/m^3 and g=9.80 m/s^2., find the
mass of metal in grams. Write only the number of
your answer in two decimal places. No need to
write the unit grams.
oil, s = 0.85
oil surface
wood
thin wire
metal
3 mm
15 mm
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