Please explain me how you got the answer. Consider a pulley system shown below. Let x be the displacement of the pulley's center of mass. Assume there is no slip between the cord and the pulley. What is the potential energy of the system? Select all that apply. Consider a pulley system shown below. Let \( x \) be the displacement of the pulley's center of mass. Assume there is no slip between the cord and the pulley.![Diagram](#)### Diagram ExplanationThe diagram illustrates a pulley system with two pulleys and a mass hanging from a cord. The system consists of:- **Pulley A**: Positioned on the left, has a mass \( m_A \), radius \( R \), and moment of inertia \( I_A \). It is connected to a spring with spring constant \( k \). The angle of displacement for pulley A is \( \theta_A \). - **Pulley B**: Positioned on the right, has a mass \( m_B \), radius \( R \), and moment of inertia \( I_B \). The angle of displacement for pulley B is \( \theta_B \). - **Mass \( m_C \)**: Hanging vertically and displaced by \( y \).### TaskWhat is the potential energy of the system? **Select all that apply.**

Find :-potential energy of the system ?(P.E)pully =mA×g×x(P.E)spring=12×x2(P.E)block=mc×g×y

Answered: Consider a pulley system shown below.…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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	Consider a pulley system shown below. Let x be the displacement of the pulley's center of mass. Assume there is no slip between the cord and the pulley. What is the potential energy of the system? Select all that apply.

Consider a pulley system shown below. Let \( x \) be the displacement of the pulley's center of mass. Assume there is no slip between the cord and the pulley.

![Diagram](#)

### Diagram Explanation

The diagram illustrates a pulley system with two pulleys and a mass hanging from a cord. The system consists of:

- **Pulley A**: Positioned on the left, has a mass \( m_A \), radius \( R \), and moment of inertia \( I_A \). It is connected to a spring with spring constant \( k \). The angle of displacement for pulley A is \( \theta_A \).

- **Pulley B**: Positioned on the right, has a mass \( m_B \), radius \( R \), and moment of inertia \( I_B \). The angle of displacement for pulley B is \( \theta_B \).

- **Mass \( m_C \)**: Hanging vertically and displaced by \( y \).

### Task

What is the potential energy of the system? **Select all that apply.**

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