The river has been measured and you are given the following dimensions and velocity readings. Calculate the overall water flow.

When measuring water flow the equation is Q=AV, with Q meaning water flow, A meaning area, and V meaning velocity. On the exam, you will be given enough information to calculate the river's area and the river's average velocity. Water Flow ExampleThe river has been measured and you are given the following dimensions and velocity readings. Calculate the overall water flow. Average depth is (1.5 + 2.4 + 5.1 + 4.7 +1.2)/5 = 15/5= 3ftCross-sectional area is 3ft X 32ft = 96 ft2Average Velocity is (12.1+10.2+7.5+8.2+11.4)/5 = 9.88 ft/m       Q=AVQ= 96 ft2 X 9.88 ft/mWater Flow = 948.48 ft3 /min

When measuring water flow the equation is Q=AV, with Q meaning water flow, A meaning area, and V meaning velocity. On the exam, you will be given enough information to calculate the river's area and the river's average velocity. Water Flow Example

A river is 6 metres wide and is flowing at a uniform velocity of 2𝑚/𝑠. The depth of a cross section of the river, measured at 1𝑚 intervals, is given in metres as:0 ，1.5 ，2 ，2.8 ，2.8 ，1.9， 0. Use the trapezium rule to approximate the rate of flow of the river, that is, the rate of change of volume。

A boat goes 12 km upstream and 40 km downstream in 8 hours. It can go 16 km upstream and 32 km downstream in 8 hours. Find the speed of the boat in still water and the speed of the stream respectively.

Water flows through a 1000 cm^2 pipe at 200 kg/s. Find the velocity, if the water is at 20 bar and 45 ℃.1 point2.0 m/s0.0002 m/s0.55 m/s5.5 m/s6.Question 6Consider a pump with a mass flow rate of wat