In a horizontal pipe, water enters with a velocity of 2m / s when it is...

The water enters the two-story building through a horizontal pipe with an inner diameter 4 cm...

The water enters the two-story building through a horizontal pipe with an inner diameter 4 cm and the pressure of 10 atm. The velocity of the water flow in the pipe is 5 m/s. The horizontal pipe is connected to a vertical pipe which leads to bathrooms in each story. a) What is the velocity of the water flow in the vertical pipe if the diameter of the pipe is 2 cm. b) What is the pressure in the pipe...

A horizontal tube has a diameter of 12.0 cm on the left, and then shrinks to...

A horizontal tube has a diameter of 12.0 cm on the left, and then shrinks to 6.5 cm on the right. Clear water enters from the left at 4.0 m / s. We assume that the flow is simple laminar. Calculate: a- the mass flow of the water entering the tube b- the velocity of the water to the right c- if the pressure at the outlet is the atmospheric pressure, what is the pressure at the inlet?

A horizontal pipe has a cross-sectional area of 0.025m2 at the entrance and 0.010m2 at the...

A horizontal pipe has a cross-sectional area of 0.025m2 at the entrance and 0.010m2 at the exit. If water enters the pipe at a speed of 2.5 m/s and a gauge pressure of 46kPa, what is the gauge pressure of the water at the exit end? The density of water is 1000 kg/m3.

A horizontal pipe has an abrupt expansion from D1 = 8 cm to D2 = 16...

A horizontal pipe has an abrupt expansion from D1 = 8 cm to D2 = 16 cm. The water velocity in the smaller section is 12 m/s and the flow is turbulent. The pressure in the smaller section is P1 = 330 kPa. Taking the kinetic energy correction factor to be 1.07 at both the inlet and the outlet, determine the downstream pressure P2.

Water, with a density of ρ = 1155 kg/m3, flows in a horizontal pipe. In one...

Water, with a density of ρ = 1155 kg/m3, flows in a horizontal pipe. In one segment of the pipe the flow speed is v1 = 7.73 m/s. In a second segment the flow speed is v2 = 1.57 m/s. What is the difference between the pressure in the second segment (P2) and the pressure in the first segment (P1) ?

Water is flowing into a factory in a horizontal pipe with a radius of 0.0163 m...

Water is flowing into a factory in a horizontal pipe with a radius of 0.0163 m at ground level. This pipe is then connected to another horizontal pipe with a radius of 0.0380 m on a floor of the factory that is 11.6 m higher. The connection is made with a vertical section of pipe and an expansion joint. Determine the volume flow rate that will keep the pressure in the two horizontal pipes the same. _________ m3/s

Steam enters a long, horizontal pipe with an inlet diameter of d1 = 16 cm at...

Steam enters a long, horizontal pipe with an inlet diameter of d1 = 16 cm at 2 MPa and 300 degrees Celsius with a velocity of 2.5 m/s. Farther downstream, the conditions are 1.8 MPa and 250 degrees Celsius, and the diameter is d2 = 14 cm. Determine (a) the mass flow rate of the steam and (b) the rate of heat transfer.

Water, with a density of ?=1185 kg/m3 , flows in a horizontal pipe. In one segment...

Water, with a density of ?=1185 kg/m3 , flows in a horizontal pipe. In one segment of the pipe, the flow speed is ?1=7.13 m/s . In a second segment, the flow speed is ?2=1.57 m/s . What is the difference between the pressure in the second segment ( ?2 ) and the pressure in the first segment ( ?1 )? P2-P1 = A liquid of density 1110 kg/m3 flows steadily through a pipe of varying diameter and height. At...

Water flows through a constricting pipe. At the inlet, the pressure is 100,000 Pa, the diameter...

Water flows through a constricting pipe. At the inlet, the pressure is 100,000 Pa, the diameter is 1.6 m and the water flows at 1 m/s. The centerline of the outlet of the pipe is the same as the centerline of the inlet of the pipe. Solve for the PRESSURE and VELOCITY of the water exiting the pipe if the diameter is 0.8 m. I know Bernoulli's equation, it's the solving for two unknowns that has me lost.

Air at 790kPa, 573oC and 8m/s enters an adiabatic nozzle at a rate of 1.95kg/s and...

Air at 790kPa, 573oC and 8m/s enters an adiabatic nozzle at a rate of 1.95kg/s and leaves at 101oC and 177kPa pressure. If the nozzle is placed horizontal hence the inlet and outlet are at the same height, determine the exit velocity of the air (m/s). Assume the cp air = 1.005kJ/kg.K.