Using the velocity distribution for a laminar, incompressible flow of a Newtonian fluid in a long vertical tube, for a fluid whose density is 300 kg per cubic meter and viscosity is 1x10 -4 Pascal-...


Using the velocity distribution for a laminar, incompressible flow of a Newtonian fluid in a long<br>vertical tube, for a fluid whose density is 300 kg per cubic meter and viscosity is 1x10 -4 Pascal-<br>second travelling along a long circular tube of cross sectional area of 1 cm? owing to a pressure<br>gradient of 1,000 Pascal per meter, the average velocity in meter per second (m/s) is Blank 1.<br>**EXPRESS YOUR ANSWER INTO WHOLE SIGNIFICANT FIGURE (NO DECIMAL PLACE)**<br>

Extracted text: Using the velocity distribution for a laminar, incompressible flow of a Newtonian fluid in a long vertical tube, for a fluid whose density is 300 kg per cubic meter and viscosity is 1x10 -4 Pascal- second travelling along a long circular tube of cross sectional area of 1 cm? owing to a pressure gradient of 1,000 Pascal per meter, the average velocity in meter per second (m/s) is Blank 1. **EXPRESS YOUR ANSWER INTO WHOLE SIGNIFICANT FIGURE (NO DECIMAL PLACE)**
The location of a point on the Cartesian coordinate system (x,y,z) is (4,5,6). Using the location in<br>the cylindrical coordinate system (r. 0, z ), the coordinate value of

Extracted text: The location of a point on the Cartesian coordinate system (x,y,z) is (4,5,6). Using the location in the cylindrical coordinate system (r. 0, z ), the coordinate value of "0 " express in radian is Blank 1 **EXPRESS YOUR ANSWER IN THREE (3) DECIMAL PLACES**

Jun 10, 2022
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