1) shows a tank of 20° C water with a nozzle h = 25 cm the surface. Bernoulli's equation applies to the flow en points 1 and 2 on the streamline, but not to the flow en points 2 and 3. h 4.0 cm 1.0 mm. 1 of 1 Part A What is the volume flow rate through the nozzle in L/min? Assume that the water level the tank is held constant. Express your answer in liters per minute. 15. ΑΣΦ Submit Provide Feedback Request Answer ? L/min Next >

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### Educational Content on Fluid Dynamics: Volume Flow Rate

#### Problem Description

A diagram (Figure 1) illustrates a tank containing water at 20°C. The tank is equipped with a nozzle positioned 25 cm below the water surface. Bernoulli's Equation is applicable to the flow between points 1 and 2 on the streamline but not to the flow between points 2 and 3.

#### Diagram Explanation

- **Figure**: The diagram shows a vertical water tank with a nozzle. 
  - **Point 1**: Represents a point on the water surface.
  - **Point 2**: Is located at the entrance to the nozzle, 4.0 cm into the nozzle's path.
  - **Point 3**: Is at the exit of the nozzle, 1.0 mm in diameter.
  - The height \( h \) from the water surface to the nozzle is 25 cm.

#### Task

**Part A**: Calculate the volume flow rate through the nozzle in liters per minute \((L/min)\). Assume that the water level in the tank remains constant.

- **Input Box for Answer**: Enter the flow rate \( Q \) in the provided box, expressed as \( L/min \).

#### What is Required

Using Bernoulli’s equation to determine the flow rate, you are to express your answer in liters per minute and enter into the box provided.

- **Submit**: Once you've calculated the answer, press submit.
- **Assistance**: You can request an answer if you need help.

---

This setup aids in applying theoretical knowledge of fluid mechanics to practical scenarios, enhancing understanding of principles like Bernoulli's equation and continuity in fluid flow systems.
Transcribed Image Text:### Educational Content on Fluid Dynamics: Volume Flow Rate #### Problem Description A diagram (Figure 1) illustrates a tank containing water at 20°C. The tank is equipped with a nozzle positioned 25 cm below the water surface. Bernoulli's Equation is applicable to the flow between points 1 and 2 on the streamline but not to the flow between points 2 and 3. #### Diagram Explanation - **Figure**: The diagram shows a vertical water tank with a nozzle. - **Point 1**: Represents a point on the water surface. - **Point 2**: Is located at the entrance to the nozzle, 4.0 cm into the nozzle's path. - **Point 3**: Is at the exit of the nozzle, 1.0 mm in diameter. - The height \( h \) from the water surface to the nozzle is 25 cm. #### Task **Part A**: Calculate the volume flow rate through the nozzle in liters per minute \((L/min)\). Assume that the water level in the tank remains constant. - **Input Box for Answer**: Enter the flow rate \( Q \) in the provided box, expressed as \( L/min \). #### What is Required Using Bernoulli’s equation to determine the flow rate, you are to express your answer in liters per minute and enter into the box provided. - **Submit**: Once you've calculated the answer, press submit. - **Assistance**: You can request an answer if you need help. --- This setup aids in applying theoretical knowledge of fluid mechanics to practical scenarios, enhancing understanding of principles like Bernoulli's equation and continuity in fluid flow systems.
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