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Shown below, a 320 KG BLOCK is hanging from a string and is completely submerged in a liquid that has density of 840 kg/m^3. The buoyant force on the block is 722.4 N. Determine the string tension and density of the block

Shown below, a 320 KG BLOCK is hanging from a string and is completely submerged in a liquid that has density of 840 kg/m^3. The buoyant force on the block is 722.4 N. Determine the string tension and density of the block

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
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Shown below, a 320 KG BLOCK is hanging from a string and is completely submerged in a liquid that has density of 840 kg/m^3. The buoyant force on the block is 722.4 N. Determine the string tension and density of the block
**Physics Problem:** As shown in the diagram, a 320 kg block is hanging from a string and submerged in a fluid. Your task is to determine: 1. The tension in the string (\( F_T \)). 2. The density of the block (\( \rho_{\text{block}} \)). **Diagram Explanation:** The image depicts a block suspended in a fluid by a string. The block is submerged, and the fluid level is marked clearly. No specific units of measurement are marked for the dimensions of the diagram, but the essential components like the block, string, and fluid are visually presented. **Calculation Area:** - \( F_T = \) [Enter the value of string tension here] - \( \rho_{\text{block}} = \) [Enter the density of the block here] Use principles of buoyancy and tension to solve the problem.
Transcribed Image Text:**Physics Problem:** As shown in the diagram, a 320 kg block is hanging from a string and submerged in a fluid. Your task is to determine: 1. The tension in the string (\( F_T \)). 2. The density of the block (\( \rho_{\text{block}} \)). **Diagram Explanation:** The image depicts a block suspended in a fluid by a string. The block is submerged, and the fluid level is marked clearly. No specific units of measurement are marked for the dimensions of the diagram, but the essential components like the block, string, and fluid are visually presented. **Calculation Area:** - \( F_T = \) [Enter the value of string tension here] - \( \rho_{\text{block}} = \) [Enter the density of the block here] Use principles of buoyancy and tension to solve the problem.
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