**Homework 4 - Attempt 1** **Problem 5.27** **Description:** At a construction site, a pallet of bricks is to be suspended by attaching a rope to it and connecting the other end to a couple of heavy crates on the roof of a building, as shown in the diagram. The rope pulls horizontally on the lower crate, and the coefficient of static friction between the lower crate and the roof is 0.399. **Diagram Explanation:** The diagram features two crates, one weighing 150 lb and the other 250 lb, placed on the roof of a building. A rope is attached to these crates. The other end of the rope is connected to a pallet of bricks hanging off the side of the building. **Part A:** **Question:** What is the weight of the heaviest pallet of bricks that can be supported this way? *(Hint: Start by drawing appropriate free-body diagrams.)* **Instructions:** Express your answer in pounds. **Homework 4 - Attempt 1** **Problem 5.27** This section of the homework involves the following: **Part B** Question: What is the friction force on the upper crate under the conditions given in Part A? *Instruction*: Express your answer in pounds. Below the question, there is an answer box for input: - The variable \( F \) stands for the friction force. - There is space provided to input your calculated answer. Available actions include: - Submit: To submit the answer. - Request Answer: To request the correct answer if unsure. Users can interact with mathematical tools through buttons for mathematical expressions and calculations. Links available: - **Provide Feedback**: Option to give feedback on the problem. - Navigation buttons allow movement between questions. This exercise tests understanding of frictional forces and their calculation, requiring knowledge of physics to determine the force in the appropriate unit of pounds.

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**Homework 4 - Attempt 1** **Problem 5.27** **Description:** At a construction site, a pallet of bricks is to be suspended by attaching a rope to it and connecting the other end to a couple of heavy crates on the roof of a building, as shown in the diagram. The rope pulls horizontally on the lower crate, and the coefficient of static friction between the lower crate and the roof is 0.399. **Diagram Explanation:** The diagram features two crates, one weighing 150 lb and the other 250 lb, placed on the roof of a building. A rope is attached to these crates. The other end of the rope is connected to a pallet of bricks hanging off the side of the building. **Part A:** **Question:** What is the weight of the heaviest pallet of bricks that can be supported this way? *(Hint: Start by drawing appropriate free-body diagrams.)* **Instructions:** Express your answer in pounds.

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**Homework 4 - Attempt 1** **Problem 5.27** This section of the homework involves the following: **Part B** Question: What is the friction force on the upper crate under the conditions given in Part A? *Instruction*: Express your answer in pounds. Below the question, there is an answer box for input: - The variable \( F \) stands for the friction force. - There is space provided to input your calculated answer. Available actions include: - Submit: To submit the answer. - Request Answer: To request the correct answer if unsure. Users can interact with mathematical tools through buttons for mathematical expressions and calculations. Links available: - **Provide Feedback**: Option to give feedback on the problem. - Navigation buttons allow movement between questions. This exercise tests understanding of frictional forces and their calculation, requiring knowledge of physics to determine the force in the appropriate unit of pounds.