- ISBN:
- Author(s):
- Language:
- Publisher:
- Edition:
- Edition:
Campbell Biology
Jane B. Reece, Robert B. Jackson, Lisa A. Urry, Michael L. Cain, Peter V. Minorsky, Steven A. Wasserman - ISBN: 9780321831552
- ISBN:
- Author(s):
- Language:
- Publisher:
- Edition:
- Edition:
On this page you find summaries, notes, study guides and many more for the textbook Campbell Biology, written by Jane B. Reece, Robert B. Jackson, Lisa A. Urry, Michael L. Cain, Peter V. Minorsky & Steven A. Wasserman. The summaries are written by students themselves, which gives you the best possible insight into what is important to study about this book. Subjects like biology, energy, chromosome, inheritance, cell, glycolysis, recombination & cycle will be dealt with.
Popular summaries Campbell Biology Notes

These AP Biology notes are extremely informative and aesthetic as well. I earned a 100 in this class because of these notes and they are separated by units, according to the CollegeBoard. There are LOTS of diagrams and graphs to further elucidate the subject and truly help to visualize the concepts. These notes are handwritten with very good handwriting and are concise so they only focus on what will be on the exam. Additionally, the notes conciseness only target the important concepts for this ...
- Textbook notes
- • 36 pages •
These AP Biology notes are extremely informative and aesthetic as well. I earned a 100 in this class because of these notes and they are separated by units, according to the CollegeBoard. There are LOTS of diagrams and graphs to further elucidate the subject and truly help to visualize the concepts. These notes are handwritten with very good handwriting and are concise so they only focus on what will be on the exam. Additionally, the notes conciseness only target the important concepts for this ...

These are the notes for Lecture 3: Life, Water, Carbon, and Chemistry in General Biology I.
- Class notes
- • 5 pages •
These are the notes for Lecture 3: Life, Water, Carbon, and Chemistry in General Biology I.

Final exam study guide for Gary Wellborn's Biol 1124 at the University of Oklahoma. Good luck!
- Study guide
- • 11 pages •
Final exam study guide for Gary Wellborn's Biol 1124 at the University of Oklahoma. Good luck!

An in depth study guide, complete with charts and examples, of chapters 1-9 of the Campbell Biology textbook. Beginning with the structure of water all the way through to human karyotypes. Covering cell processes in animal and plant cells, means of energy (oxidative phosphorylation, glycolysis, photosynthesis, the electron transport chain, etc), methods of cell communication. Included are examples of important experiments relating to the topics.
- Study guide
- • 9 pages •
An in depth study guide, complete with charts and examples, of chapters 1-9 of the Campbell Biology textbook. Beginning with the structure of water all the way through to human karyotypes. Covering cell processes in animal and plant cells, means of energy (oxidative phosphorylation, glycolysis, photosynthesis, the electron transport chain, etc), methods of cell communication. Included are examples of important experiments relating to the topics.

This study aid compiles general biology lecture notes from BIO210A at Miramar College. It also includes links to quizlets and videos which can help you understand the material thoroughly. This guide goes over cellular biology, the breakdown of glucose/ATP production cycles (glycolysis, citric acid/Kreb cycle, electron transport chain, photosynthesis (photosystems I and II)), protein creation/function, insulin production, heredity and genetics, and diffusion. This guide is especially helpful for ...
- Class notes
- • 20 pages •
This study aid compiles general biology lecture notes from BIO210A at Miramar College. It also includes links to quizlets and videos which can help you understand the material thoroughly. This guide goes over cellular biology, the breakdown of glucose/ATP production cycles (glycolysis, citric acid/Kreb cycle, electron transport chain, photosynthesis (photosystems I and II)), protein creation/function, insulin production, heredity and genetics, and diffusion. This guide is especially helpful for ...

CELS191 is taught during semester one in HSFY. It is another dense paper that is very heavy with concept and memorisation. However, it is very manageable! This study guide aims to make it easy for you to get the most out of this paper! It will aid you in getting high marks thus increasing your chances of getting a place into Medicine and Dentistry!
- Study guide
- • 249 pages •
CELS191 is taught during semester one in HSFY. It is another dense paper that is very heavy with concept and memorisation. However, it is very manageable! This study guide aims to make it easy for you to get the most out of this paper! It will aid you in getting high marks thus increasing your chances of getting a place into Medicine and Dentistry!

*This is a Digital download and will become available to download upon purchase*
Includes: The digital version of my "Plant Diversity and Plant Evolution" Notes
- Class notes
- • 3 pages •
*This is a Digital download and will become available to download upon purchase*
Includes: The digital version of my "Plant Diversity and Plant Evolution" Notes

These are the notes for the mini-lecture that covers nucleic acids more in-depth than the general lectures.
- Class notes
- • 2 pages •
These are the notes for the mini-lecture that covers nucleic acids more in-depth than the general lectures.

These notes are for Lecture 8: The Cell in General Biology I. The topics covered are plant and animal cells, prokaryotes versus eukaryotes, the organelles of a cell, and their functions.
- Class notes
- • 5 pages •
These notes are for Lecture 8: The Cell in General Biology I. The topics covered are plant and animal cells, prokaryotes versus eukaryotes, the organelles of a cell, and their functions.

Digital, handwritten notes.
- Class notes
- • 3 pages •
Digital, handwritten notes.
Latest notes & summaries Campbell Biology Notes

These are the notes for Lecture 19: The Chromosomal Theory of Inheritance in General Biology I. The topics covered are sex-linked traits, genetic maps, and genomic imprinting.
- Class notes
- • 3 pages •
These are the notes for Lecture 19: The Chromosomal Theory of Inheritance in General Biology I. The topics covered are sex-linked traits, genetic maps, and genomic imprinting.

These are the notes for Lecture 20: Chromosomal Theory in General Biology I. The topics covered are recombination, genetic maps, meiotic nondisjunction, and genomic imprinting. I got a B on this test using these notes and this corresponds to Exam 3.
- Class notes
- • 2 pages •
These are the notes for Lecture 20: Chromosomal Theory in General Biology I. The topics covered are recombination, genetic maps, meiotic nondisjunction, and genomic imprinting. I got a B on this test using these notes and this corresponds to Exam 3.

These are the notes for Lecture 21: The Molecular Basis of Inheritance in General Biology I. The topics covered are chromosomes, chromatin, DNA replication, and repair.
- Class notes
- • 5 pages •
These are the notes for Lecture 21: The Molecular Basis of Inheritance in General Biology I. The topics covered are chromosomes, chromatin, DNA replication, and repair.

These are the notes for Lecture 22 & 23: Cell Communication in General Biology I. The topics covered are cell division and differentiation, hormones, cancer, pathogens, single cells, and multicellular life.
- Class notes
- • 7 pages •
These are the notes for Lecture 22 & 23: Cell Communication in General Biology I. The topics covered are cell division and differentiation, hormones, cancer, pathogens, single cells, and multicellular life.

These are the notes for Lecture 9: Energetics and Metabolism for General Biology I. It covers topics such as mitochondria, chloroplasts, laws of energy, free energy, and ATP.
- Class notes
- • 8 pages •
These are the notes for Lecture 9: Energetics and Metabolism for General Biology I. It covers topics such as mitochondria, chloroplasts, laws of energy, free energy, and ATP.

These notes are for Lecture 10: Biochemistry and Enzymes of General Biology I. They cover the effect of enzymes or reactions, substrate specificity, and kinetics.
- Class notes
- • 5 pages •
These notes are for Lecture 10: Biochemistry and Enzymes of General Biology I. They cover the effect of enzymes or reactions, substrate specificity, and kinetics.

These are the notes for Lecture 11: Energy Generation and Glycolysis in General Biology I. They cover allosteric regulation, cellular respiration, the electron transport chain, and glycolysis.
- Class notes
- • 4 pages •
These are the notes for Lecture 11: Energy Generation and Glycolysis in General Biology I. They cover allosteric regulation, cellular respiration, the electron transport chain, and glycolysis.

These are the notes for Lecture 12 & 13: Citric Acid Cycle, Electron Transport Chain, and Oxidative Phosphorylation in General Biology I. They cover topics such as glycolysis, fermentation, pyruvate oxidation, citric acid cycle, and chemiosmosis.
- Class notes
- • 7 pages •
These are the notes for Lecture 12 & 13: Citric Acid Cycle, Electron Transport Chain, and Oxidative Phosphorylation in General Biology I. They cover topics such as glycolysis, fermentation, pyruvate oxidation, citric acid cycle, and chemiosmosis.

These notes are from the mitosis and cell cycle mini-lecture which covers these topics in further-depth than the main lecture. It covers binary fission, phases of the cell cycle, and the cytoskeleton.
- Class notes
- • 5 pages •
These notes are from the mitosis and cell cycle mini-lecture which covers these topics in further-depth than the main lecture. It covers binary fission, phases of the cell cycle, and the cytoskeleton.

These notes are for Lecture 8: The Cell in General Biology I. The topics covered are plant and animal cells, prokaryotes versus eukaryotes, the organelles of a cell, and their functions.
- Class notes
- • 5 pages •
These notes are for Lecture 8: The Cell in General Biology I. The topics covered are plant and animal cells, prokaryotes versus eukaryotes, the organelles of a cell, and their functions.