A meter stick has a mass of 0.24 kg and balances (by itself) at its geometric center.When a small chain is hung from one end of the meter stick (as shown below), the system balances when the fulcrum is a distance of 37.0 cm from the end (shown as the L in the figure).**Diagram Explanation:**There are two identical diagrams:- Each diagram shows a horizontal meter stick with a mass attached to one end and a fulcrum placed under the stick, not at the center.- An arrow labeled "L" indicates the length from the fulcrum to the end of the stick with the chain.A. On the figure ABOVE, click along the meter stick to locate the center of gravity of the meter stick. NOTE: You are allowed multiple attempts, but you will lose points after the second unsuccessful attempt.B. On the (identical) figure BELOW, click along the meter stick to locate the center of gravity of the system of the meter stick + chain. Again, you are allowed multiple attempts, but you will lose points after the second unsuccessful attempt.C. Use the given information (along with the figure) to calculate the mass of the chain.[Input Box] kg

Answered: Image /qna-images/answer/0199a0b0-1b36-46fe-beb2-acdc6da1e37d.jpg

A meter stick has a mass of 0.24 kg and balances (by itself) at its geometric center. When a small chain is hung from one end of the meter stick (as shown below), the system balances when the fulcrum is a distance of 37.0 cm from the end (shown as the L in the figure). L A. On the figure ABOVE, click along the meter stick to locate the center of gravity of the meter stick. NOTE: You are allowed multiple attempts, but you will lose points after the second unsuccessful attempt. B. On the (identical) figure BELOW, click along the meter stick to locate the center of gravity of the system of the meter stick + chain. Again, you are allowed multiple attempts, but you will lose points after the second unsuccessful attempt. L X C. Use the given information (along with the figure) to calculate the mass the chain.

A meter stick has a mass of 0.24 kg and balances (by itself) at its geometric center. When a small chain is hung from one end of the meter stick (as shown below), the system balances when the fulcrum is a distance of 37.0 cm from the end (shown as the L in the figure). L A. On the figure ABOVE, click along the meter stick to locate the center of gravity of the meter stick. NOTE: You are allowed multiple attempts, but you will lose points after the second unsuccessful attempt. B. On the (identical) figure BELOW, click along the meter stick to locate the center of gravity of the system of the meter stick + chain. Again, you are allowed multiple attempts, but you will lose points after the second unsuccessful attempt. L X C. Use the given information (along with the figure) to calculate the mass the chain.

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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Concept explainers

Torque

Torque is the rotational equivalent of linear force in physics and mechanics. Based on the course of study, it is also known as the moment of force, rotational force, or turning effect.

Question

A meter stick has a mass of 0.24 kg and balances (by itself) at its geometric center.

When a small chain is hung from one end of the meter stick (as shown below), the system balances when the fulcrum is a distance of 37.0 cm from the end (shown as the L in the figure).

**Diagram Explanation:**
There are two identical diagrams:
- Each diagram shows a horizontal meter stick with a mass attached to one end and a fulcrum placed under the stick, not at the center.
- An arrow labeled "L" indicates the length from the fulcrum to the end of the stick with the chain.

A. On the figure ABOVE, click along the meter stick to locate the center of gravity of the meter stick. NOTE: You are allowed multiple attempts, but you will lose points after the second unsuccessful attempt.

B. On the (identical) figure BELOW, click along the meter stick to locate the center of gravity of the system of the meter stick + chain. Again, you are allowed multiple attempts, but you will lose points after the second unsuccessful attempt.

C. Use the given information (along with the figure) to calculate the mass of the chain.
[Input Box] kg

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