![Question 6<br>In the schematic below, water flows through the pipe and enters<br>a sudden contraction nozzle. To hold the nozzle in place, calculate the axial component of<br>an anchoring force (FA) that would be necessary. Provide a sketch of your control volume.<br>p = 1.940 slugs/fts, 1 ft = 12 inches, 1 lb-s? = 1 slug-ft<br>Section (1)<br>Uniform flow<br>P-75[psi]<br>V,-25[ft/s]<br>Section (2)<br>Uniform flow<br>P2=0 [psi]<br>V=100[ft/s]<br>D;=3 [in]<br>Flow in<br>circular<br>pipe<br>Flow in<br>circular<br>pipe<br>Sudden<br>contraction<br>nozzle<br>](https://s3.us-east-1.amazonaws.com/storage.unifolks.com/qimg-008/008_vg2vzz0-fi1dvquz.png)
Extracted text: Question 6 In the schematic below, water flows through the pipe and enters a sudden contraction nozzle. To hold the nozzle in place, calculate the axial component of an anchoring force (FA) that would be necessary. Provide a sketch of your control volume. p = 1.940 slugs/fts, 1 ft = 12 inches, 1 lb-s? = 1 slug-ft Section (1) Uniform flow P-75[psi] V,-25[ft/s] Section (2) Uniform flow P2=0 [psi] V=100[ft/s] D;=3 [in] Flow in circular pipe Flow in circular pipe Sudden contraction nozzle