The velocity profile of a fully developed laminar flow in a straight circular pipe, as shown in the figure, is given by the expression \(u\left( r \right) = \frac{{ - {R^2}}}{{4\mu }}\left( {\frac{{dp}}{{dx}}} \right)\left( {1 - \frac{{{r^2}}}{{{R^2}}}} \right)\) , where \(\frac{dp}{dx}\)  is a constant. The average velocity if fluid in the pipe is

The velocity profile of a fully developed laminar flow in a straight circular pipe, as shown in the figure, is given by the expression \(u\left( r \right) = \frac{{ - {R^2}}}{{4\mu }}\left( {\frac{{dp}}{{dx}}} \right)\left( {1 - \frac{{{r^2}}}{{{R^2}}}} \right)\) , where \(\frac{dp}{dx}\)  is a constant. The average velocity if fluid in the pipe is Correct Answer <span class="math-tex">\(-\frac{{{R^2}}}{{8\mu}}\left( {\frac{{dp}}{{dx}}} \right)\)</span>

_0^R = - \frac{1}{{2\mu }}\left( {\frac{{dp}}{{dx}}} \right)\left\\ = - \frac{{{R^2}}}{{8\mu }}\left( {\frac{{dp}}{{dx}}} \right) \end{array}\)