Teach with Generative AI

Creating materials for courses鈥攕yllabi, lesson plans, assignments鈥攖akes time. Generative AI tools aren鈥檛 just useful at broad, general prompts, but, as our colleagues have shown, they are useful in tackling the preparations before a student even arrives in the classroom:

• Preparing to teach: Starting a syllabus or a lesson plan from a blank page is daunting. AI can help you while making content that fits your course by .
• Assignments: Reusing the same assignments across multiple years can be time efficient, but it creates challenges for assessments. Some faculty have explored how AI tools can help write, modify, or create question sets. you put in about the structure and concepts you want it to use, . And it can even for it.
• Course content: Classes often include large amounts of content for reading, from case studies to readings to slideshow text. Just a few sentences of a prompt using GenAI can or videos you might want to include for students, to discuss, and even what your should include. Some faculty have gone a step further, inputting all the course materials in the materials that trained a teaching assistant chatbot. Hear what learned from students鈥� interactions with this 鈥渇aculty copilot.鈥�

How to engage your students in the classroom is an age-old question. Some faculty have used GenAI鈥檚 real-time thinking and range of outputs to help offer contemporary solutions, such as a content-generator, a data analyst, or a personal tutorbot.

• Activity leader: Creating interactive classes is easy to advocate for, but hard to do. Some of our faculty have used GenAI to to stimulate critical thinking, to make them feel heard, or even help ,no coding needed!
• Personal tutor: You (or your TA) can鈥檛 be everywhere at once, but GenAI might be able to. Feeding it your syllabus, lectures, and an in-depth prompt can help make a personal tutorbot, or even .
• Custom reviewer: LLMs can be used to provide initial personalized feedback to your students, so you can focus on the big picture. Some faculty used them to before office hours, or even.
• Skill leveler: Classes often have hidden prerequisites: familiarity with coding, texts barred in foreign languages, or even art skills. GenAI tools can be leveraged creatively to help students overcome such barriers, like without requiring every MBA student to learn code, or without having to do so manually.

Since LLMs can write essays, respond to readings, and finish problem sets, how can one not be concerned about misuse? For you and your students, addressing this concern means first making sure we know what GenAI can and can鈥檛 do鈥攖hen creating assessments that emphasize skills where AI tools fall short.

Here are some strategies faculty have found useful:

• Human-based learning: Design tasks and assessments that require creativity, practical application of concepts, and critical thinking. For example, instead of asking your students to summarize perspectives on a given issue, you may ask them to critically analyze which perspective is most convincing to them and explain why; to relate their answers to class discussions; or to assess their peers鈥� performance during a live problem-solving session.
• Process-based assessments: Another approach is to test intermediate steps in the learning process, instead of just the final product. (It鈥檚 easy to fudge your report card to your parents; it鈥檚 harder to fudge not having gone to school for the past two months.) Testing evidence of original thinking, planning, peer-to-peer conversations, etc. can make relying on genAI less attractive.
• Establishing norms: Emphasize original work and academic honesty, and at a minimum provide clear guidelines about the use of AI-generated content in assignments and assessments.

Here are the most important ones to keep in mind:

• AI models can make mistakes: We鈥檝e all had an incident (or two!) where a GenAI tool seems to have lost its mind, yielding garbled or entirely made-up answers. These are called AI hallucinations. It鈥檚 tempting to think these will get eliminated over time as technology improves. But since LLMs are fundamentally probabilistic rather than deterministic, this may not be the case.
• AI models can be biased: AI adopts the biases of the material and data it was trained on. Good AI use involves being aware of, checking for, and making efforts to correct such biases.
• AI models can violate privacy: AI is very good at doing what you want, but it is also very bad at knowing if what you want it to do is allowed. Personal data is not supposed to be fed to GenAI models. Make sure you are aware of 吃瓜新闻鈥檚 and .
• AI models can be misused: Of course, AI could be used to plagiarize assignments. Unless you are interested in grading robots, you should shift the kind of assignments you are providing students (see above) as well as enforce academic dhonesty policies.

GenAI鈥檚 ability to meet learners where they are, both in terms of prior knowledge and learning progress, can , and AI-powered educational games can , particularly in STEM courses. One fascinating study showed that when students tutored by AI are pitted against students taught in the traditional classroom setting, the .

It is natural for instructors, particularly successful ones, to wonder: GenAI may be useful for the average educator. But my classes are great; why would I need it?

One way to think about this is in terms of the efficiency benefits of GenAI tools鈥攖hey can save time, facilitate meaningful non-classroom learning experiences, and make classroom discussions more interactive. For example:

• Utilize with GenAI to build a that gives students an unlimited number of interactive statistical problems.
• Challenge students with DIY created on short order鈥攁nd without any coding prerequisite!
• Empower students to experiment with with just a few minutes prompt engineering with DALL-E.

• Where to start experimenting: If you鈥檙e ready to jump right in, then the best place is to start is the . Like any sandbox, it鈥檚 a great place to play around with tools; unlike any sandbox, it has five large-language-models to choose from and is accessible .
• Where to modify images: If you鈥檙e looking to use GenAI to manipulate and create images, then you can use download Adobe Firefly through the . For more information, see .
• Where to learn more: If you want to level up your GenAI knowledge before you start creating, check out the or the Bok Center’s page.
• Where to find higher level tools: API access to tools like Azure OpenAI, Google Vertex, and AWS services is available by request from HUIT. If you don鈥檛 know what these are, that鈥檚 okay; teachers have made remarkable tools just using ChatGPT and a well-crafted prompt!

When using large language models (LLMs) in your classroom, it’s essential to be aware of the designed to ensure responsible and effective use of these technologies and to refer to School-specific policies and resources. It is also important to remember that other existing policies, such as 吃瓜新闻鈥檚 , , and , also apply to GenAI and the use of LLMs.

Across 吃瓜新闻, there’s a strong emphasis on using LLMs . The use of generative AI must align with the principles of honesty, respect, and responsibility, ensuring that students’ work remains original and reflective of their understanding and skills. In crafting a response to the use of LLMs in the classroom, it’s crucial to strike a balance between leveraging these tools for educational enhancement and ensuring that they do not compromise educational objectives.

At the course level, Schools within 吃瓜新闻 allow for the , provided these are . Each encourages innovative and thoughtful , including . Above all, students and faculty are encouraged to be transparent about the use of generative AI in academic work. This includes proper when AI-generated content or assistance is utilized in the creation of academic materials. Consider co-creating course-specific norms around the use of generative AI with your students.

For any faculty who wish to simply explore the use of these tools, we encourage you to engage with peers and organizations at 吃瓜新闻 that are interested in these topics.