Make Sense of Notes
The world is incredibly complex. The more literature you read, the more you realize how little we actually know about it. This realization humbles us even as we strive to excel in our fields.
Concepts
This part is a bit trickier. Concepts are where new information comes together to explain patterns or phenomena we observe in the world. They work like systems with purposes, connections, and feedback loops.
Often, multiple concepts come together to form theories. Since concepts are based on examples and interpretations, they can evolve as new information emerges. That makes them flexible.
To make things easier, we’ve used mind maps to explain these concepts. Pay attention to the colors. We've used them intentionally, and they each have a meaning.
To simplify information, we’ve divided our notes into the following categories.
Facts
These are pieces of information that are fixed and universally true. They don’t change. e.g.
Water is made up of two hydrogen atoms and one oxygen atom.
2 + 2 will always equal 4.
Examples
These are real world or lab based observations. They help illustrate facts and concepts.
However, examples are discovered through specific methods and those methods can also limit what we see. How? Stay tuned we explain this further in our notes.
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Microbiology (In Progress)
This curriculum for an undergraduate level course. The project focuses on helping students grasp the core principles of microbial reproduction, growth, and control.
Additionally, we’ll explore how pathogens evade the immune system and contribute to disease.
A key emphasis throughout the course is connecting these concepts to real world relevance highlighting how microbiology informs public health, medicine, and everyday decision making.
Immunology (Upcoming)
This curriculum is designed for an undergraduate-level course. The project focuses on helping students understand the different types of immune responses and how they protect the body from invasions.
Additionally, we’ll explore what happens when the immune system malfunctions. The emphasis will be on human immunology, with minimal reference to murine models.
Students can also expect tips and tricks to aid memorization, especially since the course involves learning a large number of complex molecules.
Algebra (In Progress)
We will cover the basics of functions and graphs, from understanding different types of functions to solving equations and inequalities. Special emphasis will be placed on how these concepts apply to biology.
After immunology the next courses will be based on audience voting
The choice is yours, Get Curious.
Common FAQ for Courses
What is the purpose of this Courses?
Most books use convoluted language and repeat the same concepts multiple times, which takes time away from what really matters - practicing questions. We're here to keep it brief and provide plenty of questions to help make your college experience less stressful.
Where can I find the answers of each Course?
You can find answers to your questions at the end of each webpage. Make sure to attempt the questions first before checking them out.
Who can benefit from this?
The way we structure our notes and assign practice questions is designed to support dyslexic learners. However, anyone with a desire to understand the material deeply can benefit from them.
How often is this updated?
We do our best to keep it updated regularly and always include the date at the beginning of the webpage showing when it was last reviewed.
Can I Provide Suggestions?
Absolutely! We welcome suggestions — whether it's about missing topics, any inquiries, or even just a message of support on how the courses helped you. Contact us at Feedback@crazysci.com.
AI can give me all the questions and notes for free, why use this website?
AI is a useful tool for students, but it falls short when it comes to recognizing interconnected concepts and creating effective mind maps. Over time, it may also produce inaccuracies that go unnoticed by the untrained eye.