A stream of refreshing beverage of diameter d = 0.01 m flows steadily from the cooler of diameter D = 0.20 m as shown in Fig. Determine the flow rate, Q (in L/s) from the bottle into the cooler if the depth of beverage in the cooler is to remain constant at h = 0.20 mCorrect answer is 'Range: 0.14 to 0.16'. Can you explain this answer?

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A stream of refreshing beverage of diameter d = 0.01 m flows steadily from the cooler of diameter D = 0.20 m as shown in Fig. Determine the flow rate, Q (in L/s) from the bottle into the cooler if the depth of beverage in the cooler is to remain constant at h = 0.20 m

Correct answer is 'Range: 0.14 to 0.16'. Can you explain this answer?

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A stream of refreshing beverage of diameter d = 0.01 m flows steadily...

To maintain a constant height of beverage in the cooler, the incoming flow rate must be equal to outgoing flow rate. Hence let us predict the outgoing rate.

Let us consider two points ① and ② lying on the same streamline. Point ① is taken on top surface and ② is at the exit of the hole. !applying Bernoulli’s equation between ① & ②

Point ① is the location where particle starts moving ∴ V₁ = 0

!lso ① is exposed to atmosphere ∴ p₁ = 0 Also ② is the point in the free liquid get. ∴ p₂ = 0 Thus substituting these values in Bernoulli’s equation

V2 = 1.98 m/sec

Thus outgoing discharge is

Q = A₂V₂

Q = 1.55 x 10^-4m³/sec.0+

or 0.155 Lt/sec.

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A stream of refreshing beverage of diameter d = 0.01 m flows steadily from the cooler of diameter D = 0.20 m as shown in Fig. Determine the flow rate, Q (in L/s) from the bottle into the cooler if the depth of beverage in the cooler is to remain constant at h = 0.20 mCorrect answer is 'Range: 0.14 to 0.16'. Can you explain this answer? for Civil Engineering (CE) 2024 is part of Civil Engineering (CE) preparation. The Question and answers have been prepared according to the Civil Engineering (CE) exam syllabus. Information about A stream of refreshing beverage of diameter d = 0.01 m flows steadily from the cooler of diameter D = 0.20 m as shown in Fig. Determine the flow rate, Q (in L/s) from the bottle into the cooler if the depth of beverage in the cooler is to remain constant at h = 0.20 mCorrect answer is 'Range: 0.14 to 0.16'. Can you explain this answer? covers all topics & solutions for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A stream of refreshing beverage of diameter d = 0.01 m flows steadily from the cooler of diameter D = 0.20 m as shown in Fig. Determine the flow rate, Q (in L/s) from the bottle into the cooler if the depth of beverage in the cooler is to remain constant at h = 0.20 mCorrect answer is 'Range: 0.14 to 0.16'. Can you explain this answer?.

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