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Organic Chemistry II – Semester 2 Cheat Sheet | Reactions, Mechanisms & Spectroscopy
16-page Organic Chemistry II cheat sheet covering key reactions, mechanisms, synthesis strategies, aromatic compounds, carbonyl chemistry, and spectroscopy (IR, NMR). Includes condensed summaries, reaction maps, and step-by-step examples. Perfect for finals and quick review.
- Summary
- • 16 pages •
16-page Organic Chemistry II cheat sheet covering key reactions, mechanisms, synthesis strategies, aromatic compounds, carbonyl chemistry, and spectroscopy (IR, NMR). Includes condensed summaries, reaction maps, and step-by-step examples. Perfect for finals and quick review.
Organic Chemistry I – Semester 1 Lecture Notes with Mechanisms & Examples
complete Organic Chemistry I notes for Semester 1. Covers bonding, hybridization, acid-base, reaction mechanisms, alkanes, stereochemistry, substitution/elimination, and spectroscopy. Includes clear diagrams, reaction summaries, and step-by-step examples for exam prep.
- Class notes
- • 85 pages •
complete Organic Chemistry I notes for Semester 1. Covers bonding, hybridization, acid-base, reaction mechanisms, alkanes, stereochemistry, substitution/elimination, and spectroscopy. Includes clear diagrams, reaction summaries, and step-by-step examples for exam prep.
Calc 1 practice exam with answer key-75 questions
75-question Calculus I exam with full answer key. Covers limits, derivatives, continuity, applications, and basic integrals. Ideal for midterm or final prep with a wide range of problem types and step-by-step solutions. Perfect for mastering Calc I exam formats
- Exam (elaborations)
- • 7 pages •
75-question Calculus I exam with full answer key. Covers limits, derivatives, continuity, applications, and basic integrals. Ideal for midterm or final prep with a wide range of problem types and step-by-step solutions. Perfect for mastering Calc I exam formats
Calc 1 - All lecture notes from calculus 1 topics, including introduction to limits,.pdf
Complete Calculus I lecture notes with step-by-step examples. Covers limits, derivatives, continuity, curve sketching, optimization, related rates, and integrals. Perfect for mastering concepts and preparing for exams in Calc 1 or Engineering Math I.
- Class notes
- • 114 pages •
Complete Calculus I lecture notes with step-by-step examples. Covers limits, derivatives, continuity, curve sketching, optimization, related rates, and integrals. Perfect for mastering concepts and preparing for exams in Calc 1 or Engineering Math I.
University of Physics Vol. 2 15th Edition Ch21-30 (Notes, Examples, Solutions))
Concise, exam‑ready notes for Ch. 21–30 of University Physics Vol. 2 (15th Ed.). Covers electrostatics, Gauss’s law, potential, capacitance, circuits, magnetism & induction with clear formulas, background summaries, and step‑by‑step worked examples. Perfect Physics II prep.
- Package deal
- • 2 items •
Concise, exam‑ready notes for Ch. 21–30 of University Physics Vol. 2 (15th Ed.). Covers electrostatics, Gauss’s law, potential, capacitance, circuits, magnetism & induction with clear formulas, background summaries, and step‑by‑step worked examples. Perfect Physics II prep.
Calculus II (Prep Notes for Midterm 1) – Series, Convergence Tests & Improper Integrals
This study packet is a comprehensive prep guide for Calculus II / Engineering Mathematics II-A (Midterm 1). It condenses the most important concepts into a clear, exam-ready format: Series and Sequences – definitions, convergence/divergence basics Convergence Tests – integral test, comparison test, ratio/root tests, alternating series test Improper Integrals – step-by-step evaluation methods with conditions for convergence Worked Examples – multiple problem types fully so...
- Class notes
- • 39 pages •
This study packet is a comprehensive prep guide for Calculus II / Engineering Mathematics II-A (Midterm 1). It condenses the most important concepts into a clear, exam-ready format: Series and Sequences – definitions, convergence/divergence basics Convergence Tests – integral test, comparison test, ratio/root tests, alternating series test Improper Integrals – step-by-step evaluation methods with conditions for convergence Worked Examples – multiple problem types fully so...
Calculus II – Complete Integration Techniques with Step‑by‑Step Examples | Exam‑Ready Study Guid
This study guide is a comprehensive packet on all major integration techniques from Calculus II. It condenses the most important material into a clear, exam‑ready format with detailed worked examples for every method: Integration by Parts – formula, strategy, and multiple solved problems Trigonometric Integrals & Substitution – step‑by‑step breakdowns of common trig forms Partial Fraction Decomposition – rational functions fully solved with detailed steps Improper Int...
- Class notes
- • 88 pages •
This study guide is a comprehensive packet on all major integration techniques from Calculus II. It condenses the most important material into a clear, exam‑ready format with detailed worked examples for every method: Integration by Parts – formula, strategy, and multiple solved problems Trigonometric Integrals & Substitution – step‑by‑step breakdowns of common trig forms Partial Fraction Decomposition – rational functions fully solved with detailed steps Improper Int...
University Physics Vol. 2 (15th Ed.) – Chapters 21–25 Study Guide | Electrostatics, Potential & Circuits
This premium study guide covers Chapters 21–25 of Sears & Zemansky’s University Physics with Modern Physics, Volume 2 (15th Edition, Young & Freedman). Concise explanations of key concepts: electric charge, electric fields, Gauss’s law, electric potential, capacitance, current, resistance, and EMF. Step-by-step worked examples for every major problem type, with all calculation details shown. Background summaries to build intuition before diving into equations. Exam-focused ...
- Book & Paket-Deal
- Class notes
- • 184 pages •
This premium study guide covers Chapters 21–25 of Sears & Zemansky’s University Physics with Modern Physics, Volume 2 (15th Edition, Young & Freedman). Concise explanations of key concepts: electric charge, electric fields, Gauss’s law, electric potential, capacitance, current, resistance, and EMF. Step-by-step worked examples for every major problem type, with all calculation details shown. Background summaries to build intuition before diving into equations. Exam-focused ...
University Physics Vol. 2 (15th Ed.) – Chapters 26–30 Study Guide | Circuits, Magnetism & Induction
This premium study guide covers Chapters 26–30 of Sears & Zemansky’s University Physics with Modern Physics, Volume 2 (15th Edition, Young & Freedman). Concise explanations of key concepts: DC circuits, magnetic fields, sources of magnetic fields, Faraday’s law, and electromagnetic induction. Step-by-step worked examples for every major problem type, showing all calculation details and reasoning. Background summaries to build intuition before diving into equations. Exam-foc...
- Book & Paket-Deal
- Class notes
- • 160 pages •
This premium study guide covers Chapters 26–30 of Sears & Zemansky’s University Physics with Modern Physics, Volume 2 (15th Edition, Young & Freedman). Concise explanations of key concepts: DC circuits, magnetic fields, sources of magnetic fields, Faraday’s law, and electromagnetic induction. Step-by-step worked examples for every major problem type, showing all calculation details and reasoning. Background summaries to build intuition before diving into equations. Exam-foc...
Mechanics of Materials – Chapter 3 Notes (R.C. Hibbeler, 10th Edition)
Key concepts explained clearly: axial deformation, stress-strain relationships, thermal stress, and statically indeterminate members. Step-by-step derivations of formulas for elongation, compatibility conditions, and superposition methods. Worked examples broken down into concise, exam-ready steps. Organized layout: equations and definitions presented in a clean, ordered format for rapid recall. Tailored for engineering students in Mechanics of Materials (M E 306 / EMA 303 at UW...
- Book
- Class notes
- • 31 pages •
Key concepts explained clearly: axial deformation, stress-strain relationships, thermal stress, and statically indeterminate members. Step-by-step derivations of formulas for elongation, compatibility conditions, and superposition methods. Worked examples broken down into concise, exam-ready steps. Organized layout: equations and definitions presented in a clean, ordered format for rapid recall. Tailored for engineering students in Mechanics of Materials (M E 306 / EMA 303 at UW...