7.6 An aerosol sample is taken at a rate of 0.2 L/ min through a tube...

A brine solution of salt flows at a constant rate of 7 ​L/min into a large...

A brine solution of salt flows at a constant rate of 7 ​L/min into a large tank that initially held 100 L of brine solution in which was dissolved 0.4 kg of salt. The solution inside the tank is kept well stirred and flows out of the tank at the same rate. If the concentration of salt in the brine entering the tank is 0.04 ​kg/L, determine the mass of salt in the tank after t min. When will the...

A brine solution of salt flows at a constant rate of 8 ​L/min into a large...

A brine solution of salt flows at a constant rate of 8 ​L/min into a large tank that initially held 100 L of brine solution in which was dissolved 0.2 kg of salt. The solution inside the tank is kept well stirred and flows out of the tank at the same rate. If the concentration of salt in the brine entering the tank is 0.02 ​kg/L, determine the mass of salt in the tank after t min. When will the...

Water flows at a rate of 30 L/min through a horizontal 7.0-cm-diameter pipe under a pressure...

Water flows at a rate of 30 L/min through a horizontal 7.0-cm-diameter pipe under a pressure of 80 Pa. At one point, calcium deposits reduce the cross-sectional area of the pipe to 20 cm^2. What is the pressure at this point? Consider the water to be an ideal fluid.

Mercury at an inlet temperature of 75 °C flows through a 2 cm inside diameter tube...

Mercury at an inlet temperature of 75 °C flows through a 2 cm inside diameter tube at a flow rate of 1.5 kg/s. This tube is part of a nuclear reactor in which heat can be generated uniformly at any desired rate by adjusting the neutron flux level. Determine convection heat transfer coefficient, and the heat flux required for a 1.5 m length of tube required to raise the temperature of the mercury to 275 °C. Also determine if mercury...

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow...

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow regime, the pressure drop across the pipe, in kPa, the head loss through the pipe in m and the volume flow rate through the pipe, in L/s. [8-31*]

Blood plasma flows with a rate of 0.3 cm3/s through a tube with a diameter d...

Blood plasma flows with a rate of 0.3 cm3/s through a tube with a diameter d = 0.24 cm and length l = 0.9 m at a temperature of 20°C. The pressure at the tube entrance is P2 = 1.80 x 104 N/m2. If the temperature of the tube and plasma reaches 27°C, what is the tube entrance pressure P2’ needed to maintain flow rate and pressure at the tube exit constant. Consider η20°C = 1.81 mPa ·s and η27°C...

Blood plasma flows with a rate of 0.34 cm3/s through a tube with a diameter d...

Blood plasma flows with a rate of 0.34 cm3/s through a tube with a diameter d = 0.15 cm and length l = 2.0 m at a temperature of 20°C. The pressure at the tube entrance is P2 = 1.90 x 104 N/m2. If the temperature of the tube and plasma reaches 31°C, what is the tube entrance pressure P2’ needed to maintain the flow rate and pressure at the tube exit constant. Consider η20°C = 1.81 mPa ·s and...

1. Fluid flows at a rate of 2.0 L/s through a pipe with a diameter of...

1. Fluid flows at a rate of 2.0 L/s through a pipe with a diameter of 10 cm. The pipe then goes up a height of 5m while narrowing to a diameter of 5 cm. What is the pressure gradient (the change in pressure) from the top to the bottom of the pipe? [hint: draw this and label with P1, v1, P2, v2 etc.) 2. A hurricane wind blows across the top of a flat roof measuring 12 m by...

1. Fluid flows at a rate of 2.0 L/s through a pipe with a diameter of...

1. Fluid flows at a rate of 2.0 L/s through a pipe with a diameter of 10 cm. The pipe then goes up a height of 5m while narrowing to a diameter of 5 cm. What is the pressure gradient (the change in pressure) from the top to the bottom of the pipe? [hint: draw this and label with P1, v1, P2, v2 etc.) 2. A hurricane wind blows across the top of a flat roof measuring 12 m by...

1. A long solenoid with a diameter of 10 cm has 200 turns/cm. If the current...

1. A long solenoid with a diameter of 10 cm has 200 turns/cm. If the current is decreased at a rate of 3 mA/s, what is the magnitude of the induced electric field (in mV/m), 6 cm from the axis of the solenoid? A. 0.2 B. 0.1 C. 0.3 D. 0.4 2. A series RL circuit with R = 40 Ω and L = 10 H has a constant voltage V = 100 V applied at t = 0 by...