For the pipe contraction shown below, the larger diameter is 8 cm and the smaller diameter is 4 cm. If the incoming velocity is 3 m/s, evaluate the horizontal force on the bolts holding the pipe in place and the manometer reading (h). The density of mercury is 13550 kg/m³.
For the pipe contraction shown below, the larger diameter is 8 cm and the smaller diameter is 4 cm. If the incoming velocity is 3 m/s, evaluate the horizontal force on the bolts holding the pipe in place and the manometer reading (h). The density of mercury is 13550 kg/m³.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Please show the working and explain.
![For the pipe contraction shown below, the larger diameter is 8
cm and the smaller diameter is 4 cm. If the incoming velocity is
3 m/s, evaluate the horizontal force on the bolts holding the
pipe in place and the manometer reading (h). The density of
mercury is 13550 kg/m³.
Water
h
2
P2P₁ 101 kPa
Mercury](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F570a8294-d243-45fa-9744-1fd05d820be4%2Ffe589f74-f92a-4385-b068-f39ac7b5b345%2Ffle4gmv_processed.png&w=3840&q=75)
Transcribed Image Text:For the pipe contraction shown below, the larger diameter is 8
cm and the smaller diameter is 4 cm. If the incoming velocity is
3 m/s, evaluate the horizontal force on the bolts holding the
pipe in place and the manometer reading (h). The density of
mercury is 13550 kg/m³.
Water
h
2
P2P₁ 101 kPa
Mercury
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