Water flows ina horizontla tube as shown in figure. The pressure of water changes by 600 N m^-2 between A and B whre the areas of cross section asre `30cm^2 and 15cm^2 respectively. Find the rate of flow of water through the tube.
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Water flows in a horizontal tube as shown in figure. The pressure of water changes by 600 N//m^(2) between x and y where the areas of cross-section are 3cm^(2) and 1.5cm^(2) respectively. Find the rate of flow of water through the tube.

Water flows in a horizontal tube (see figure). The pressure of water changes by 700 Nm^(-2) between A and B where the area of cross section are 40cm^(2) and 20cm^(2) , respectively. Find the rate of flow of water through the tube.

Water flows through a horizontal tube as shown in figure. If the difference of heights of water colun in the vertical tubes is 2 cm and the area of cross section at A and B are 4cm^2 and 2cm^2 respectively, find the rate of flow of water across any section.

Water flows through the tubes shown in figure. The areas of cross-section of the wide and the narrow portions of the tube are 5 cm^(2) and 2 cm^(2) respectively. The rate of flow of water through the tube is 500 cm^(3)//s . Find the difference of mercury levels in the U-tube.

Water flows through the tube shown in figure. The areas of cross section of the wide and the narrow portions of the tube are 5cm^2 and 2cm^2 respectively. The rate of flow of water through the tube is 500 cm^3s^-1 . Find the difference of mercury levels in the U-tube.

Water flows in a horizontal tube of variable cross-section (figure). The area of cross-section at x and y are 40 mm^(2) and 20mm^(2) respectively. If 10 c c of water enters per second through x , find (i) the speed of water at x , (ii) the speed of water at y and (iii) the pressure difference P_(x) - P_(y) .

Water is flowing steadily through a horizontal tube a of non uniform cross-section. If the pressure of water is 4xx10^(4)N//m^(2) at a point where cross-section is 0.02m^(2) and velocity of flow is 2m//s , what is pressure at a point where cross-section reduces to 0.01m^(2)

Water flows through a tube shown in figure. The areas of cross section at A and B are 1cm^2 and 0.5 cm^2 respectively. The height difference between A and B is 5m. If the speed of water at A is 10 cms^-1 find a the speed at B and b the difference in pressures at A and B.

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