3. () Water flows into the top of an open barrel at a constant mass flow rate of 30 lb/s. Water exits through a pipe near the base with a mass flow rate proportional to the height of water inside: M = 9L, where L is the instantaneous water height, in ft. The area of the base is 3 ft², and the density of water is 62.4 lb/ft³. The barrel is initially empty. a. Find out how the height of water changes with time (i.e. L(t)); b. Use Excel to plot the variation of water height with time;

Question three

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1. Which of the following seven variables are extensive? Which ones are intensive variables? M, V, T, P, N, p, and V 2. ( closed ) According to state principle, which of the following properties is fixed for liquid water in a system at 25°C and 1 atm (i.e., single-phase and single component)? Select all correct answers. A. The water's molar volume B. The water's specific volume C. The water's total volume D. The water's density According to state principle, which of the following properties is fixed for 100 g liquid water in a closed system at 25°C and 1 atm (i.e., single-phase and single component)? Select all correct answers. L ft A. The water's molar volume B. The water's specific volume C. The water's total volume D. The water's density 3. ( ) Water flows into the top of an open barrel at a constant mass flow rate of 30 lb/s. Water exits through a pipe near the base with a mass flow rate proportional to the height of water inside: M₁ =9L, where L is the instantaneous water height, in ft. The area of the base is 3 ft², and the density of water is 62.4 lb/ft³. The barrel is initially empty. a. Find out how the height of water changes with time (i.e. L(t)); b. Use Excel to plot the variation of water height with time; M₁ = 30 lb/s M = 9L lb/s