An ideal fluid flows through a pipe of circular cross-section made of two sections with diameters `2.5 cm` and `3.75 cm`. The ratio of the velocities in the two pipes is

An ideal fluid through a pipe of circular cross-section made of two sections with diameters 2.5 cm and 3.75 cm . The ratio of the velocities in the two pipes is

An ideal fluid flows through a pipe of circular cross section made of two section with diamters 2.5 cm and 9.76 cm. The ratio of the velocities in the two pipes is

An ideal fluid flows through a pipe of circular cross section with diameters 5 cm and 10 cm as shown. The ratio of velocities of fluid at A and B is

An ideal fluid flows through a pipe of circular cross - section with diameters 5 cm and 10 cm as shown in the figure. The ratio of velocities of fluid at A and B is

An ideal fluid flows through a pipe of circular cross section of radius r at a speed v_(0) . Now a viscous liquid is made to flow through the pipe at the same volume flow rate (measured in m^(3)s^(–1) ). Find the maximum speed of a fluid particle in the pipe.

In streamline flow of liquid through a pipe of uniform cross sectional area, all stremlines are

Water flows through a non-uniform tube of area of cross section A, B and C whose values are 25, 15 and 35cm^(2) resprectively. The ratio of the velocities of water at the sections A,B and C is

A liquid flows through a pipe of non-uniform cross-section. If A_(1) and A_(2) are the cross-sectional areas of the pipe at two points, the ratio of velocities of the liquid at these points will be

An ideal liqquid flows through the horizontal pipe AB, which is of uniform cross-section. The vertical pipes 1,2 and 3 equispaced. The liqudi levels in these pipes are at heightes h_(1), h_(2) h_(3) respectively above AB. Liquid flows from A to B in AB.