**Problem: Calculating the Mass of a Seesaw Board***Scenario:*In this problem, we have a uniform seesaw that is balanced on a fulcrum positioned 3.0 meters from the left end. There are two boys sitting on the seesaw:- The boy on the right has a mass of 35 kg.- The boy on the left has a mass of 78 kg.The distances from the fulcrum to each boy are labeled in the diagram:- The boy on the left (78 kg) is 3.0 meters from the fulcrum.- The boy on the right (35 kg) is 5.0 meters from the fulcrum.*Objective:*Determine the mass of the board, measured in kilograms (kg).*Diagram Explanation:*The diagram illustrates a seesaw balanced on a triangle that represents the fulcrum. The distances and masses are clearly labeled:- Distance between the left boy and the fulcrum: 3.0 meters.- Distance between the right boy and the fulcrum: 5.0 meters.To solve for the mass of the board, consider the principles of torque and equilibrium.

Given Mass of smaller boy = 35 kg Mass of bigger boy = 78 kg Length of board = 8.0 m We have to…

The uniform seesaw shown below is balanced on a fulcrum located 3.0 m from the left end. The smaller boy on the right has a mass of 35 kg and the bigger boy on the left has a mass of 78 kg. Wha is the mass of the board (in kg)? -3.0 m- 5.0 m

The uniform seesaw shown below is balanced on a fulcrum located 3.0 m from the left end. The smaller boy on the right has a mass of 35 kg and the bigger boy on the left has a mass of 78 kg. Wha is the mass of the board (in kg)? -3.0 m- 5.0 m

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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Question

**Problem: Calculating the Mass of a Seesaw Board**

*Scenario:*

In this problem, we have a uniform seesaw that is balanced on a fulcrum positioned 3.0 meters from the left end. There are two boys sitting on the seesaw:

- The boy on the right has a mass of 35 kg.
- The boy on the left has a mass of 78 kg.

The distances from the fulcrum to each boy are labeled in the diagram:

- The boy on the left (78 kg) is 3.0 meters from the fulcrum.
- The boy on the right (35 kg) is 5.0 meters from the fulcrum.

*Objective:*

Determine the mass of the board, measured in kilograms (kg).

*Diagram Explanation:*

The diagram illustrates a seesaw balanced on a triangle that represents the fulcrum. The distances and masses are clearly labeled:

- Distance between the left boy and the fulcrum: 3.0 meters.
- Distance between the right boy and the fulcrum: 5.0 meters.

To solve for the mass of the board, consider the principles of torque and equilibrium.

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