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1. What can you say about the pressures at points 1, 2, and 3? A. pi =P2=P3 B. pi =P2>p3 C. p3>p1 =P2 D. p3> pı >p2 E. p2=P3>Pi

1. What can you say about the pressures at points 1, 2, and 3? A. pi =P2=P3 B. pi =P2>p3 C. p3>p1 =P2 D. p3> pı >p2 E. p2=P3>Pi

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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### Question 1. What can you say about the pressures at points 1, 2, and 3? ### Possible Answers A. \( p_1 = p_2 = p_3 \) B. \( p_1 = p_2 > p_3 \) C. \( p_3 > p_1 = p_2 \) D. \( p_3 > p_1 > p_2 \) E. \( p_2 = p_3 > p_1 \) ### Diagram Explanation In the diagram to the right, there is a U-shaped container filled with a fluid. It features three marked points labeled as 1, 2, and 3. - **Point 1**: Located at the top left section of the fluid. - **Point 2**: Located at the mid-left section of the fluid. - **Point 3**: Located at the top right and at the same vertical level as Point 2, but horizontally shifted. The diagram is relevant for understanding how pressure varies at different points within a fluid at different depths and aligning with the fundamental principles of fluid mechanics, where pressure increases with depth.
Transcribed Image Text:### Question 1. What can you say about the pressures at points 1, 2, and 3? ### Possible Answers A. \( p_1 = p_2 = p_3 \) B. \( p_1 = p_2 > p_3 \) C. \( p_3 > p_1 = p_2 \) D. \( p_3 > p_1 > p_2 \) E. \( p_2 = p_3 > p_1 \) ### Diagram Explanation In the diagram to the right, there is a U-shaped container filled with a fluid. It features three marked points labeled as 1, 2, and 3. - **Point 1**: Located at the top left section of the fluid. - **Point 2**: Located at the mid-left section of the fluid. - **Point 3**: Located at the top right and at the same vertical level as Point 2, but horizontally shifted. The diagram is relevant for understanding how pressure varies at different points within a fluid at different depths and aligning with the fundamental principles of fluid mechanics, where pressure increases with depth.
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