A 0.7-kilogram mass has just been dropped from the roof of a building. I need to catch it after it has fallen exactly 105 meters. If I weigh 83 kilograms and start running at 8 meters per second as soon as the object is released, how far away can I stand and still catch the object?

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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### Educational Problem Overview

**Problem Statement:**

A 0.7-kilogram mass has just been dropped from the roof of a building. I need to catch it after it has fallen exactly 105 meters. If I weigh 83 kilograms and start running at 8 meters per second as soon as the object is released, how far away can I stand and still catch the object?

**Answer Format:**

- I can stand \[ \_\_\_ \] meters away and still catch the object. *(Type an integer or decimal rounded to two decimal places as needed.)*

**Instructions:**

- Analyze the scenario using principles of physics, particularly kinematics.
- Calculate the time it takes for the object to fall 105 meters.
- Determine how far you can run in that time at a speed of 8 meters per second.
- Input the distance rounded to two decimal places. 

*Note: There are no graphs or diagrams provided with this problem.*
Transcribed Image Text:### Educational Problem Overview **Problem Statement:** A 0.7-kilogram mass has just been dropped from the roof of a building. I need to catch it after it has fallen exactly 105 meters. If I weigh 83 kilograms and start running at 8 meters per second as soon as the object is released, how far away can I stand and still catch the object? **Answer Format:** - I can stand \[ \_\_\_ \] meters away and still catch the object. *(Type an integer or decimal rounded to two decimal places as needed.)* **Instructions:** - Analyze the scenario using principles of physics, particularly kinematics. - Calculate the time it takes for the object to fall 105 meters. - Determine how far you can run in that time at a speed of 8 meters per second. - Input the distance rounded to two decimal places. *Note: There are no graphs or diagrams provided with this problem.*
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