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Homework 4 – Learning from failures in the interior environm…

Review the facts described in the video below, do your own research about fires in the built environment, and answer the questions related to how the interior built environment and engineering ethics affect people’s live

FIRST: Watch this video about a

NEXT: Review this list of and the ASCE Code of Ethics discussed in class.

THEN: Post your answers to the following three questions (200-250 words for each answer).

1. Physical/Build Environment: The tragedy in Brazil happened in 2013 and the international community should have learned from it to avoid additional accidents. Compare and contrast the fire in Brazil with the one that happened in Switzerland in the Le Constellation bar in Crans-Montana on January, 1st 2026 by identifying three distinct elements of the interior built environment which contributed to both tragedies.

2. Human Factors and culture of the location at the time of the fires: Identify and explain two distinct elements which might have been present in both tragedies related to the management/ownership of the clubs and how the decisions made by the owners of these venues (the acceptable culture of the local construction industry) might have contributed to these tragedies.

3. Ethics and Professional Responsibility: Using the , briefly explain two duties of engineers and related canons (as described in the code of ethics) that were violated in these cases and how they were violated and ultimately contributed to these tragedies. (Please remember that the canons must be spelled out, points will be deducted from the answer if they are only mentioned by number.)

April 10, 2026
Matematika SD

Seorang pedagang memiliki 3 ke

Keranjang pertama berisi 24 buah.

Keranjang kedua berisi 36 buah.

Keranjang ketiga berisi 48 buah.

Buah-buah tersebut akan dibagikan ke beberapa kantong plastik dengan jumlah yang sama banyak tanpa sisa.

Berapa jumlah kantong plastik terbawa

April 10, 2026
English Question

Most important questions note page High school english

April 10, 2026
535 – 2 – CONTROL

You are required to complete the Control Systems coursework accurately and professionally. Follow the instructions below step by step to ensure a complete and correct submission.

—

### 1. System Modelling

Begin by modelling the DC motor system based on the given parameters in the assignment.

– Use the electrical and mechanical equations of the DC motor.

– Assume armature inductance (L = 0).

– Ignore load torque as stated.

Your tasks:

1. Derive the transfer function:

– From input voltage (V(s)) to angular velocity (omega(s))

2. Then derive:

– From input voltage (V(s)) to angular position (theta(s))

All steps must be clearly shown, including:

– KVL equation

– Torque equation

– Laplace transform

– Final simplified transfer function

—

### 2. Closed-Loop System

– Construct the full block diagram including the controller.

– Simplify the closed-loop system into a single transfer function.

– Show all block diagram reduction steps clearly.

—

### 3. Controller Design (IPD / PID)

Design a controller that satisfies the required performance specifications.

Performance requirements:

– Rise time (t_r < 0.15s)

– Overshoot (M_p < 5%)

– Settling time (T_s < 0.25s)

– Steady-state error = 0

Tasks:

– Calculate controller gains:

– (K_p)

– (K_i)

– (K_d)

– Use appropriate methods such as:

– Pole placement

– Standard second-order system relations

– Clearly justify your design choices.

—

### 4. Simulation (MATLAB & Simulink)

– Implement the full system in Simulink.

– Include:

– Plant (DC motor transfer function)

– PID controller

– Feedback loop

– Verify that the system meets all performance requirements.

– Provide:

– Step response graph

– Measured values (rise time, overshoot, settling time)

—

### 5. Ziegler-Nichols Tuning

– Research the Ziegler-Nichols tuning method.

– Convert the system to a standard PID structure (if required).

– Apply the tuning method.

– Compare results with your designed controller.

—

### 6. Discussion

Provide a detailed discussion including:

– Effect of increasing/decreasing:

– Overshoot

– Rise time

– Settling time

– Trade-offs between performance parameters

– Comparison between manual design and Ziegler-Nichols results

—

### 7. Report Writing

Prepare a professional report including:

1. Introduction

2. System Modelling

3. Controller Design

4. Simulation Results

5. Ziegler-Nichols Method

6. Discussion

7. Conclusion

8. References

Important notes:

– Maximum 10 pages (A4)

– No appendices allowed

– All calculations must be included

—

### 8. Submission Requirements

Submit the following:

– Word and PDF report

– MATLAB file (.m)

– Simulink file (.slx)

Compress all files into a single ZIP folder named as:

[Your Name]_[Your UWE ID].zip

—

Ensure the work is original, well-structured, and clearly explained. Any missing steps, unclear calculations, or failure to meet performance criteria will result in mark deductions.

Complete the task with full accuracy and engineering-level quality.

April 10, 2026
535 – 1 – CONTROL

You are required to complete the Control Systems coursework accurately and professionally. Follow the instructions below step by step to ensure a complete and correct submission.

—

### 1. System Modelling

Begin by modelling the DC motor system based on the given parameters in the assignment.

– Use the electrical and mechanical equations of the DC motor.

– Assume armature inductance (L = 0).

– Ignore load torque as stated.

Your tasks:

1. Derive the transfer function:

– From input voltage (V(s)) to angular velocity (omega(s))

2. Then derive:

– From input voltage (V(s)) to angular position (theta(s))

All steps must be clearly shown, including:

– KVL equation

– Torque equation

– Laplace transform

– Final simplified transfer function

—

### 2. Closed-Loop System

– Construct the full block diagram including the controller.

– Simplify the closed-loop system into a single transfer function.

– Show all block diagram reduction steps clearly.

—

### 3. Controller Design (IPD / PID)

Design a controller that satisfies the required performance specifications.

Performance requirements:

– Rise time (t_r < 0.15s)

– Overshoot (M_p < 5%)

– Settling time (T_s < 0.25s)

– Steady-state error = 0

Tasks:

– Calculate controller gains:

– (K_p)

– (K_i)

– (K_d)

– Use appropriate methods such as:

– Pole placement

– Standard second-order system relations

– Clearly justify your design choices.

—

### 4. Simulation (MATLAB & Simulink)

– Implement the full system in Simulink.

– Include:

– Plant (DC motor transfer function)

– PID controller

– Feedback loop

– Verify that the system meets all performance requirements.

– Provide:

– Step response graph

– Measured values (rise time, overshoot, settling time)

—

### 5. Ziegler-Nichols Tuning

– Research the Ziegler-Nichols tuning method.

– Convert the system to a standard PID structure (if required).

– Apply the tuning method.

– Compare results with your designed controller.

—

### 6. Discussion

Provide a detailed discussion including:

– Effect of increasing/decreasing:

– Overshoot

– Rise time

– Settling time

– Trade-offs between performance parameters

– Comparison between manual design and Ziegler-Nichols results

—

### 7. Report Writing

Prepare a professional report including:

1. Introduction

2. System Modelling

3. Controller Design

4. Simulation Results

5. Ziegler-Nichols Method

6. Discussion

7. Conclusion

8. References

Important notes:

– Maximum 10 pages (A4)

– No appendices allowed

– All calculations must be included

—

### 8. Submission Requirements

Submit the following:

– Word and PDF report

– MATLAB file (.m)

– Simulink file (.slx)

Compress all files into a single ZIP folder named as:

[Your Name]_[Your UWE ID].zip

—

Ensure the work is original, well-structured, and clearly explained. Any missing steps, unclear calculations, or failure to meet performance criteria will result in mark deductions.

Complete the task with full accuracy and engineering-level quality.

April 10, 2026
601 – 2 – CONTROL

You are required to complete the Control Systems coursework accurately and professionally. Follow the instructions below step by step to ensure a complete and correct submission.

—

### 1. System Modelling

Begin by modelling the DC motor system based on the given parameters in the assignment.

– Use the electrical and mechanical equations of the DC motor.

– Assume armature inductance (L = 0).

– Ignore load torque as stated.

Your tasks:

1. Derive the transfer function:

– From input voltage (V(s)) to angular velocity (omega(s))

2. Then derive:

– From input voltage (V(s)) to angular position (theta(s))

All steps must be clearly shown, including:

– KVL equation

– Torque equation

– Laplace transform

– Final simplified transfer function

—

### 2. Closed-Loop System

– Construct the full block diagram including the controller.

– Simplify the closed-loop system into a single transfer function.

– Show all block diagram reduction steps clearly.

—

### 3. Controller Design (IPD / PID)

Design a controller that satisfies the required performance specifications.

Performance requirements:

– Rise time (t_r < 0.15s)

– Overshoot (M_p < 5%)

– Settling time (T_s < 0.25s)

– Steady-state error = 0

Tasks:

– Calculate controller gains:

– (K_p)

– (K_i)

– (K_d)

– Use appropriate methods such as:

– Pole placement

– Standard second-order system relations

– Clearly justify your design choices.

—

### 4. Simulation (MATLAB & Simulink)

– Implement the full system in Simulink.

– Include:

– Plant (DC motor transfer function)

– PID controller

– Feedback loop

– Verify that the system meets all performance requirements.

– Provide:

– Step response graph

– Measured values (rise time, overshoot, settling time)

—

### 5. Ziegler-Nichols Tuning

– Research the Ziegler-Nichols tuning method.

– Convert the system to a standard PID structure (if required).

– Apply the tuning method.

– Compare results with your designed controller.

—

### 6. Discussion

Provide a detailed discussion including:

– Effect of increasing/decreasing:

– Overshoot

– Rise time

– Settling time

– Trade-offs between performance parameters

– Comparison between manual design and Ziegler-Nichols results

—

### 7. Report Writing

Prepare a professional report including:

1. Introduction

2. System Modelling

3. Controller Design

4. Simulation Results

5. Ziegler-Nichols Method

6. Discussion

7. Conclusion

8. References

Important notes:

– Maximum 10 pages (A4)

– No appendices allowed

– All calculations must be included

—

### 8. Submission Requirements

Submit the following:

– Word and PDF report

– MATLAB file (.m)

– Simulink file (.slx)

Compress all files into a single ZIP folder named as:

[Your Name]_[Your UWE ID].zip

—

Ensure the work is original, well-structured, and clearly explained. Any missing steps, unclear calculations, or failure to meet performance criteria will result in mark deductions.

Complete the task with full accuracy and engineering-level quality.

April 10, 2026
601 – 1 – CONTROL

You are required to complete the Control Systems coursework accurately and professionally. Follow the instructions below step by step to ensure a complete and correct submission.

—

### 1. System Modelling

Begin by modelling the DC motor system based on the given parameters in the assignment.

– Use the electrical and mechanical equations of the DC motor.

– Assume armature inductance (L = 0).

– Ignore load torque as stated.

Your tasks:

1. Derive the transfer function:

– From input voltage (V(s)) to angular velocity (omega(s))

2. Then derive:

– From input voltage (V(s)) to angular position (theta(s))

All steps must be clearly shown, including:

– KVL equation

– Torque equation

– Laplace transform

– Final simplified transfer function

—

### 2. Closed-Loop System

– Construct the full block diagram including the controller.

– Simplify the closed-loop system into a single transfer function.

– Show all block diagram reduction steps clearly.

—

### 3. Controller Design (IPD / PID)

Design a controller that satisfies the required performance specifications.

Performance requirements:

– Rise time (t_r < 0.15s)

– Overshoot (M_p < 5%)

– Settling time (T_s < 0.25s)

– Steady-state error = 0

Tasks:

– Calculate controller gains:

– (K_p)

– (K_i)

– (K_d)

– Use appropriate methods such as:

– Pole placement

– Standard second-order system relations

– Clearly justify your design choices.

—

### 4. Simulation (MATLAB & Simulink)

– Implement the full system in Simulink.

– Include:

– Plant (DC motor transfer function)

– PID controller

– Feedback loop

– Verify that the system meets all performance requirements.

– Provide:

– Step response graph

– Measured values (rise time, overshoot, settling time)

—

### 5. Ziegler-Nichols Tuning

– Research the Ziegler-Nichols tuning method.

– Convert the system to a standard PID structure (if required).

– Apply the tuning method.

– Compare results with your designed controller.

—

### 6. Discussion

Provide a detailed discussion including:

– Effect of increasing/decreasing:

– Overshoot

– Rise time

– Settling time

– Trade-offs between performance parameters

– Comparison between manual design and Ziegler-Nichols results

—

### 7. Report Writing

Prepare a professional report including:

1. Introduction

2. System Modelling

3. Controller Design

4. Simulation Results

5. Ziegler-Nichols Method

6. Discussion

7. Conclusion

8. References

Important notes:

– Maximum 10 pages (A4)

– No appendices allowed

– All calculations must be included

—

### 8. Submission Requirements

Submit the following:

– Word and PDF report

– MATLAB file (.m)

– Simulink file (.slx)

Compress all files into a single ZIP folder named as:

[Your Name]_[Your UWE ID].zip

—

Ensure the work is original, well-structured, and clearly explained. Any missing steps, unclear calculations, or failure to meet performance criteria will result in mark deductions.

Complete the task with full accuracy and engineering-level quality.

April 10, 2026
Acid base and salt

Explanation of acid base and salt

April 10, 2026
Studypool Professional
Project ini bertujuan untuk membuat sebuah aplikasi sederhana menggunakan bahasa pemrograman Java di NetBeans. Aplikasi ini digunakan untuk menampilkan dan menginput data identitas mahasiswa seperti nama, alamat, NIM, program studi, dan fakultas.

Dalam project ini, pengguna akan dapat memasukkan data melalui keyboard menggunakan library java.util.Scanner, kemudian data tersebut akan ditampilkan kembali sebagai output di layar. Selain itu, aplikasi juga menampilkan format output yang rapi menggunakan fungsi System.out.println.

Tahapan pengerjaan project meliputi:
1. Membuat project baru di NetBeans
2. Membuat class utama (Main Class)
3. Menuliskan kode program Java untuk output data
4. Menambahkan input data menggunakan Scanner
5. Menjalankan program dan melihat hasil output
Fitur utama dalam aplikasi:
- Input data mahasiswa dari keyboard
- Menampilkan data mahasiswa secara terstruktur
- Menggunakan format teks seperti tab (t) dan newline (n)
Tujuan dari project ini adalah untuk memahami dasar-dasar pemrograman Java, penggunaan NetBeans sebagai IDE, serta konsep input dan output dalam program.
April 10, 2026
mis 301 homework

Please read the directions page. any questions let me know.

April 10, 2026