A golf course sprinkler system discharges water from a horizontal pipe at the rate of 7100 cm3/s . At one point in the pipe, where the radius is 4.20 cm , the water's absolute pressure is 2.45×105 Pa . At a second point in the pipe, the water passes through a constriction where the radius is 1.75 cm .
What is the water's absolute pressure as it flows through this constriction? (in Pa)
A golf course sprinkler system discharges water from a horizontal pipe at the rate of 7100...
A golf course sprinkler system discharges water from a horizontal pipe at the rate of 7250 cm3/s . At one point in the pipe, where the radius is 3.90 cm , the water's absolute pressure is 2.25×105 Pa. At a second point in the pipe, the water passes through a constriction where the radius is 2.05 cm . What is the water's absolute pressure as it flows through this constriction? P = Pa
A golf course sprinkler system discharges water from a horizontal pipe at the rate of 7500 cm3/s . At one point in the pipe, where the radius is 4.05 cm , the water's absolute pressure is 2.25×105 Pa . At a second point in the pipe, the water passes through a constriction where the radius is 2.20 cm . What is the water's absolute pressure as it flows through this constriction? P= ___________Pa
what is the water's absolute pressure as it flows through this construction? express answer in pascals A golf course sprinkler system discharges water from a horizontal pipe at the rate of 7500 cm/s. At one point in the pipe, where the radius is 3.85 cm the water's absolute pressure is 2.45x105 Pa At a second point in the pipe, the water passes through a constriction where the radius is 2.15 cm
Water flows at a rate of 660.0 liters/min through a horizontal 6.00-cm diameter pipe under a pressure of 5.50 × 105 Pa. At one point, calcium deposits reduce the cross-sectional area of the pipe to 6.50 cm². What is the pressure at this point? Pa
Water flowing out of a horizontal pipe emerges through a nozzle. The radius of the pipe is 1.7 cm, and the radius of the nozzle is 0.49 cm. The speed of the water in the pipe is 0.78 m/s. Treat the water as an ideal fluid, and determine the absolute pressure of the water in the pipe. Pa
10. Water flows at a rate of 610.0 liters/min through a horizontal 5.10-cm diameter pipe under a pressure of 6.20x10^5 Pa. At one point, calcium deposits reduce the cross-sectional area of the pipe to 5.50 cm². What is the pressure at this point?
Water flowing out of a horizontal pipe emerges through a nozzle. The radius of the pipe is 2.0 cm, and the radius of the nozzle is 0.59 cm. The speed of the water in the pipe is 0.73 m/s. Treat the water as an ideal fluid, and determine the absolute pressure of the water in the pipe. P1 =
Water flows at a rate of 21 L/min through a horizontal 8.0-cm-diameter pipe under a pressure of 3.8 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 39 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures. p= Pa
Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is 1.65 ✕ 105 Pa and the pipe radius is 2.50 cm. At the higher point located at y = 2.50 m, the pressure is 1.30 ✕ 105 Pa and the pipe radius is 1.20 cm.
Water flows at a rate of 22 L/min through a horizontal 7.0-cm-diameter pipe under a pressure of 17.0 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 21 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures.