(1)A stream of water of diameter d= 0.100 mflows steadily from a tank of diameter D= 1.00 m as shown in Fig. 1. Determine the flow rate, Q, needed from the inflow pipe if the water depth remains constant, h= 2.00 m.(2)Kerosene (SG = 0.850) flows through the Venturi meter shown in Fig. 2 with flowrates between 5.00103and 50.0103m3/s.Determine the range in pressure difference, P1P2needed to measure these flowrates. 学年学類名列番号氏名以下の問題文の日本語訳と解答案を次回講義開始前に回収します。3B415号室前のBOXに提出もOKです。(1) A stream of water of diameter d= 0.100 m flows steadily from a tank of diameter D= 1.00 m as shown in Fig. 1. Determine the flow rate, Q, needed from the inflow pipe ifthe water depth remains constant, h = 2.00 m.(1)(2) Kerosene (SG0.850) flows through theKerosene, SG = 0.85D = 1.0 mVenturi meter shown in Fig. 2 with flowratesh = 2.0 mD = 0.1 mbetween 5.00x10-3 and 50.0×10-3 m²/s. Determine(2) • D, = 0.06 m(1)|(2)the range in pressure difference, P1- P2 needed to0.005 m/s s Q s0.050 m³/smeasure these flowrates.d = 0.10 mFig. 2Fig. 1

(1) Given: The diameter of the stream of water is 0.100 m. The diameter of the tank of water is 1.0…

(1)A stream of water of diameter d= 0.100 mflows steadily from a tank of diameter D= 1.00 m as shown in Fig. 1. Determine the flow rate, Q, needed from the inflow pipe if the water depth remains constant, h= 2.00 m. (2)Kerosene (SG = 0.850) flows through the Venturi meter shown in Fig. 2 with flowrates between 5.00103and 50.0103m3/s.Determine the range in pressure difference, P1P2needed to measure these flowrates.

(1)A stream of water of diameter d= 0.100 mflows steadily from a tank of diameter D= 1.00 m as shown in Fig. 1. Determine the flow rate, Q, needed from the inflow pipe if the water depth remains constant, h= 2.00 m. (2)Kerosene (SG = 0.850) flows through the Venturi meter shown in Fig. 2 with flowrates between 5.00103and 50.0103m3/s.Determine the range in pressure difference, P1P2needed to measure these flowrates.

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(2)Kerosene (SG = 0.850) flows through the Venturi meter shown in Fig. 2 with flowrates between 5.00103and 50.0103m3/s.Determine the range in pressure difference, P1P2needed to measure these flowrates.