A sump pump (used to drain water from the basement of houses buit below the water table) is draining a flooded basement at the rate of 0.500 L/s, with an output pressure of 2.00 x 10 N/m² You may neglect frictional losses in both parts of this problem (a) The water enters a hose with a 3.00 cm inside diameter and mes 3.00 m above the pump. What is its pressure (in N/m?) at this point? 1.705 ✔ N/m² (h) The hose goes over the foundation wall, losing 1 40 m in height, and widens to 4:00 cm diameter What is the ressure now (in N/m²37 x N/m²
A sump pump (used to drain water from the basement of houses buit below the water table) is draining a flooded basement at the rate of 0.500 L/s, with an output pressure of 2.00 x 10 N/m² You may neglect frictional losses in both parts of this problem (a) The water enters a hose with a 3.00 cm inside diameter and mes 3.00 m above the pump. What is its pressure (in N/m?) at this point? 1.705 ✔ N/m² (h) The hose goes over the foundation wall, losing 1 40 m in height, and widens to 4:00 cm diameter What is the ressure now (in N/m²37 x N/m²
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Transcribed Image Text:A sump pump (used to drain water from the basement of houses buit below the water table) is draining a flooded basement at the rate of 0.500 L/s, with an output pressure of 2.00 x 10 N/m² You may
neglect frictional losses in both parts of this problem
(a) The water enters a hose with a 3.00 cm inside diameter and mes 3.00 m above the pump. What is its pressure (in N/m?) at this point?
1.705
✔ N/m²
(h) The hose goes over the foundation wal, losing 140 m in height, and widens to 4.00 cm diameter What is the pessure now (in N/m³37
x N/m²
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