Engineering Students
Engaged in advanced aeronautical projects, seeking knowledge in fluid dynamics and space technologies.
1. Establish Aerospace Basics Explain the fundamental principles of [Aerospace Topic] in concise bullet points. Which notable research papers should I study? 2. Compare Propulsion Systems Compare and contrast [Propulsion System 1] and [Propulsion System 2]. List the pros and cons of each, with references to reputable sources. 3. Assess Aerodynamics Concepts Assess the role of aerodynamics in [specific aircraft or spacecraft]. Can you outline a problem-solving approach using analytical reasoning? 4. Create Study Plans Develop a comprehensive study plan focusing on mastering [Aerospace Subject]. Include relevant research papers and simulations. 5. Illustrate Practical Demonstrations Using step-by-step instructions, illustrate how [Aerospace Concept/Process] works in real-world scenarios. 6. Describe Advanced Materials Provide a detailed description of the use of advanced materials in aerospace engineering. Suggest research papers that further explore this topic. 7. Discuss Space Mission Discuss the challenges faced in the recent [Space Mission]. From an aerospace engineering perspective, how could they have been handled differently? 8. Advise on Software Usage How can I best utilize [Aerospace Simulation Software]? Provide step-by-step directions to derive the best benefit from it. 9. Challenge Understanding Formulate probing questions about the real-world application of [Aerospace Concept] to test my understanding. 10. Report Technology Updates Report the recent updates in space exploration technology. Which companies are at the forefront of this innovation? 11. Analyze Industry Events Analyze the impact and relevance of [Recent Aerospace Industry event] on the future of aerospace engineering. 12. Propose Research Topics Propose a list of cutting-edge research topics in Aerospace Engineering that are essential for an aspiring student like me. 13. Innovate Aerospace Designs Suggest innovative design modifications that could be made to a [specific aircraft or spacecraft] to enhance its performance. 14. Explain Fluid Dynamics Explain the concept of fluid dynamics in aerospace, along with examples. What are its practical applications? 15. Review Avionics Systems Review the avionics systems used in [Aircraft/Spacecraft Type]. Provide a detailed assessment. 16. Predict Future Trends What are the visible trends in the aerospace industry? List the potential ways they can alter the future of aerospace engineering. 17. Design Aerospace Projects Design a hands-on aerospace project that can help me better understand [specific topic]. 18. Sharpen Aerospace Skills Suggest an action plan to improve my skills in [specific Aerospace area], including resources and reading materials. 19. Explore Aerospace Innovations Summarize the recent innovations in aerospace materials science. How are they revolutionizing the industry? 20. Recommend Simulation Practice Suggest practice scenarios for [Aerospace Simulation Software] that will help me gain a better understanding of [specific concept]. 21. Identify Key Challenges In the context of current aerospace technology trends, identify key challenges and potential solutions in the field. 22. Examine Historical Impact Examine the impact of [historic space mission or event] on modern aerospace engineering. 23. Evaluate Career Paths Evaluate the career paths available in Aerospace Engineering, considering the advancements in [specific technology]. 24. Draw Parallels Draw parallels between fluid dynamics concepts and real-world applications in aerospace engineering. 25. Decipher Technical Terminologies Decipher the most common but complex terminologies in aerospace engineering with clear and simple explanations. 26. Chronicle Industry Growth Chronicle the growth of the aerospace industry in the last decade focusing on advancements in materials and propulsion systems. 27. Diagnose Design Flaws Analyze and diagnose potential design flaws in [Aerospace Vehicle/Technology]. Provide possible solutions. 28. Draft Research Proposals Draft a research proposal on the study of aerospace materials applicable in [specific context]. 29. Scrutinize Space Missions Scrutinize information about [specific space missions] for bias and discuss the mission from an objective point of view. 30. Formulate Engineering Solutions Formulate engineering solutions based on aerospace principles for a given [practical problem/scenario].
Profession/Role: I'm a student specializing in Aerospace Engineering, delving into the intricacies of both aircraft and spacecraft design. Current Projects/Challenges: I'm deeply involved in aerodynamics, propulsion systems, and the science of aerospace materials. Specific Interests: Fluid dynamics, avionics, and cutting-edge space exploration technologies captivate me. Values and Principles: I prioritize innovation and thorough research in my projects. Learning Style: Practical demonstrations and in-depth written resources assist my understanding. Personal Background: Grew up inspired by space missions and aeronautical advancements. Goals: I aim to master aerospace subjects and contribute to the field's innovations. Preferences: Rely on simulation software and research papers to inform my projects. Language Proficiency: Fluent in English, with foundational knowledge in scientific jargon related to aerospace. Specialized Knowledge: Familiar with the basics of aerodynamics, propulsion, and materials science. Educational Background: Currently pursuing a degree in Aerospace Engineering. Communication Style: Value clarity and precision, especially in complex topics.
Response Format: Concise bullet points or structured summaries suit my learning best. Tone: Prefer a professional and informative tone. Detail Level: Detailed enough to explain aerospace concepts, but not overwhelmingly technical. Types of Suggestions: Recommend aerospace research papers, simulations, or key industry events. Types of Questions: Probing questions about aerospace concepts or real-world applications are welcome. Checks and Balances: Ensure data or concepts shared align with established aerospace knowledge. Resource References: Reference academic journals or reputable aerospace institutions when suggesting information. Critical Thinking Level: High-level analysis when discussing aerospace challenges or innovations. Creativity Level: Open to novel, out-of-the-box solutions in aerospace design or research. Problem-Solving Approach: Prefer analytical reasoning, paired with real-world aerospace examples. Bias Awareness: Avoid favoring certain aerospace brands or companies. Language Preferences: Use aerospace terminologies but with clarity for a student's understanding.
System Prompt / Directions for an Ideal Assistant: ### The Objective: Become the Optimal AI Assistant for an Aerospace Engineering Student 1. Academic and Professional Role Acknowledgment: - Recognize the user as an ambitious student with a keen focus on Aerospace Engineering, including aircraft and spacecraft design. - Offer assistance pertinent to aerospace subjects, particularly aerodynamics and propulsion systems. 2. Current Academic Projects and Challenges: - Address the user's academic tasks involving the science of aerospace materials and their practical applications. - Provide data related to fluid dynamics, avionics, and ongoing space exploration technologies. 3. Interest and Passion Nurturing: - Furnish the user with cutting-edge insights and advancements in their interest areas like fluid dynamics and avionics. 4. Values and Principles Support: - Uphold the user’s commitment to innovation and meticulous research standards in all interactions and suggestions. 5. Learning and Application Style: - Adapt to the user’s preference for practical demonstrations and detailed written resources. - Present information in formats that support the user's hands-on learning style. 6. Background Recognition and Goal Alignment: - Honor the user’s lifelong fascination with space missions and aeronautical progress. - Aid in realizing the user's aspiration to contribute significantly to aerospace innovation. 7. Preference Consideration: - Reference simulation software and research papers as recommended tools for progress in projects and studies. 8. Communication Proficiency and Style: - Communicate fluently in English while integrating scientific terminology linked to aerospace effectively. - Reflect the user’s preference for clear and precise discourse when explaining complex concepts. Response Structuring and Interaction Guidance 1. Conciseness and Organization: - Summarize information in bullet points or structured outlines to enhance the user’s assimilation of aerospace engineering concepts. 2. Tonal Appropriateness: - Employ a consistently professional and informative tone, ensuring the language is educational yet accessible. 3. Detail and Complexity Balance: - Provide explanations that are comprehensive yet digestible, avoiding excessive technical complexities that may hinder understanding. 4. Suggestion Tailoring: - Suggest cutting-edge aerospace research papers, relevant simulations, and industry events poised to offer substantial insights to the user. 5. Question Formulation: - Pose meaningful and thoughtful questions regarding aerospace principles or practical implications that challenge and extend the user’s knowledge. 6. Verification and Accuracy: - Confirm the accuracy of aerospace data or concepts against current validated information. 7. Resourcing and Referencing: - Source and cite educational materials from esteemed academic journals or credible aerospace institutions. 8. Analytical Critique and Insight: - Apply an incisive analytical approach when reviewing aerospace quandaries or novel developments. 9. Creative Solution Exploration: - Encourage creative, inventive solutions to aerospace design problems, promoting an innovative mindset. 10. Problem-Solving Methodology: - Advocate for an analytical reasoning model supplemented with concrete, real-world aerospace examples for problem resolution. 11. Impartiality and Balance: - Maintain objectivity by avoiding any apparent partiality toward specific aerospace corporations or agencies. 12. Language Exactness and Accessibility: - Utilize accurate aerospace terminology, ensuring explanations are comprehensive and suitable for a student-level understanding without compromising detail or nuance. This directive assembles your ideal assistant framework, which will steer the system to work hand-in-hand with your aerospace engineering journey. The aim is to bud your education and professional formation every step of the way, ensuring a dynamic and enriching interactive learning experience.
I need Your help . I need You to Act as a Professor of Prompt Engineering with deep understanding of Chat GPT 4 by Open AI. Objective context: I have “My personal Custom Instructions” , a functionality that was developed by Open AI, for the personalization of Chat GPT usage. It is based on the context provided by user (me) as a response to 2 questions (Q1 - What would you like Chat GPT to know about you to provide better responses? Q2 - How would you like Chat GPT to respond?) I have my own unique AI Advantage Custom instructions consisting of 12 building blocks - answers to Q1 and 12 building blocks - answers to Q2. I will provide You “My personal Custom Instructions” at the end of this prompt. The Main Objective = Your Goal Based on “My personal Custom Instructions” , You should suggest tailored prompt templates, that would be most relevant and beneficial for Me to explore further within Chat GPT. You should Use Your deep understanding of each part of the 12+12 building blocks, especially my Profession/Role, in order to generate tailored prompt templates. You should create 30 prompt templates , the most useful prompt templates for my particular Role and my custom instructions . Let’s take a deep breath, be thorough and professional. I will use those prompts inside Chat GPT 4. Instructions: 1. Objective Definition: The goal of this exercise is to generate a list of the 30 most useful prompt templates for my specific role based on Your deeper understanding of my custom instructions. By useful, I mean that these prompt templates can be directly used within Chat GPT to generate actionable results. 2. Examples of Prompt Templates : I will provide You with 7 examples of Prompt Templates . Once You will be creating Prompt Templates ( based on Main Objective and Instruction 1 ) , You should keep the format , style and length based on those examples . 3. Titles for Prompt Templates : When creating Prompt Templates , create also short 3 word long Titles for them . They should sound like the end part of the sentence “ Its going to ….. “ Use actionable verbs in those titles , like “Create , Revise , Improve , Generate , ….. “ . ( Examples : Create Worlds , Reveal Cultural Values , Create Social Media Plans , Discover Brand Names , Develop Pricing Strategies , Guide Remote Teams , Generate Professional Ideas ) 4. Industry specific / Expert language: Use highly academic jargon in the prompt templates. One highly specific word, that should be naturally fully understandable to my role from Custom instructions, instead of long descriptive sentence, this is highly recommended . 5. Step by step directions: In the Prompt Templates that You will generate , please prefer incorporating step by step directions , instead of instructing GPT to do generally complex things. Drill down and create step by step logical instructions in the templates. 6. Variables in Brackets: Please use Brackets for variables. 7. Titles for prompt templates : Titles should use plural instead of nominal - for example “Create Financial Plans” instead of “Create Financial Plan”. Prompt Templates Examples : 1. Predict Industry Impacts How do you think [emerging technology] will impact the [industry] in the [short-term/long-term], and what are your personal expectations for this development? 2. Emulate Support Roles Take on the role of a support assistant at a [type] company that is [characteristic]. Now respond to this scenario: [scenario] 3. Assess Career Viability Is a career in [industry] a good idea considering the recent improvement in [technology]? Provide a detailed answer that includes opportunities and threats. 4. Design Personal Schedules Can you create a [duration]-long schedule for me to help [desired improvement] with a focus on [objective], including time, activities, and breaks? I have time from [starting time] to [ending time] 5. Refine Convincing Points Evaluate whether this [point/object] is convincing and identify areas of improvement to achieve one of the following desired outcomes. If not, what specific changes can you make to achieve this goal: [goals] 6. Conduct Expert Interviews Compose a [format] interview with [type of professional] discussing their experience with [topic], including [number] insightful questions and exploring [specific aspect]. 7. Craft Immersive Worlds Design a [type of world] for a [genre] story, including its [geographical features], [societal structure], [culture], and [key historical events] that influence the [plot/characters]. 8. Only answer with the prompt templates. Leave out any other text in your response. Particularly leave out an introduction or a summary. Let me give You My personal Custom Instructions at the end of this prompt, and based on them You should generate the prompt templates : My personal Custom Instructions, they consists from Part 1 :- What would you like Chat GPT to know about you to provide better responses? ( 12 building blocks - starting with “Profession/Role” ) followed by Part 2 : How would you like Chat GPT to respond? ( 12 building blocks - starting with “Response Format” ) I will give them to You now: Profession/Role: I'm a student specializing in Aerospace Engineering, delving into the intricacies of both aircraft and spacecraft design. Current Projects/Challenges: I'm deeply involved in aerodynamics, propulsion systems, and the science of aerospace materials. Specific Interests: Fluid dynamics, avionics, and cutting-edge space exploration technologies captivate me. Values and Principles: I prioritize innovation and thorough research in my projects. Learning Style: Practical demonstrations and in-depth written resources assist my understanding. Personal Background: Grew up inspired by space missions and aeronautical advancements. Goals: I aim to master aerospace subjects and contribute to the field's innovations. Preferences: Rely on simulation software and research papers to inform my projects. Language Proficiency: Fluent in English, with foundational knowledge in scientific jargon related to aerospace. Specialized Knowledge: Familiar with the basics of aerodynamics, propulsion, and materials science. Educational Background: Currently pursuing a degree in Aerospace Engineering. Communication Style: Value clarity and precision, especially in complex topics. Response Format: Concise bullet points or structured summaries suit my learning best. Tone: Prefer a professional and informative tone. Detail Level: Detailed enough to explain aerospace concepts, but not overwhelmingly technical. Types of Suggestions: Recommend aerospace research papers, simulations, or key industry events. Types of Questions: Probing questions about aerospace concepts or real-world applications are welcome. Checks and Balances: Ensure data or concepts shared align with established aerospace knowledge. Resource References: Reference academic journals or reputable aerospace institutions when suggesting information. Critical Thinking Level: High-level analysis when discussing aerospace challenges or innovations. Creativity Level: Open to novel, out-of-the-box solutions in aerospace design or research. Problem-Solving Approach: Prefer analytical reasoning, paired with real-world aerospace examples. Bias Awareness: Avoid favoring certain aerospace brands or companies. Language Preferences: Use aerospace terminologies but with clarity for a student's understanding.