Selected Options

• Topic: Genetic Engineering
• Topic: Evolution & Natural Selection
• Topic: Microbial Genetics
• Topic: Energy & Natural Resources
• Topic: Fishes
• Topic: Acids, Bases, & Buffers
• Topic: Genetic Disorders

Refine Results

• Grade Level
  • College  (13)
  • Elementary (Pre K - 5)  (1)
  • High School (9 - 12)  (22)
  • Middle School (6 - 8)  (2)
• Topic
  • Air Quality & Atmosphere  (1)
  • Algae, Fungi, & Protozoa  (2)
  • Alternative Energies & Technologies  (2)
  • Amphibians & Reptiles  (1)
  • Animal Behavior & Plant Responses  (9)
  • Application of Waves  (2)
  • Arson, Explosions, Ballistics, & Toolmarks  (1)
  • Arthropods  (4)
  • Atomic Structure & Mass  (4)
  • Atomic Theory & Structure  (1)
  • Behavior  (2)
  • Biochemistry  (7)
  • Biodiversity  (7)
  • Biomes & Ecosystems  (5)
  • Biosphere & Biogeology  (1)
  • Biotechnology  (13)
  • Blood  (3)
  • Blood Analysis  (1)
  • Body Organization & Comparative Anatomy  (18)
  • Body Systems  (21)
  • Cancer, Stem, & Germ Cells  (4)
  • Cardiovascular System  (5)
  • Cell Structure & Function  (15)
  • Cell Types & Structures  (8)
  • Cells & Tissues  (3)
  • Cellular Metabolism  (1)
  • Cellular Transport  (4)
  • Charts & Tables  (2)
  • Chemical Bonding  (1)
  • Chemical Equilibrium  (1)
  • Chemical Kinetics  (3)
  • Chemical Reactions  (5)
  • Chemical Safety  (2)
  • Classification & Taxonomy  (2)
  • Control of Microbes  (1)
  • Development  (2)
  • Digestive System  (3)
  • Disease & Epidemiology  (2)
  • DNA & Chromatin  (1)
  • DNA & RNA Structure  (10)
  • DNA Analysis  (8)
  • DNA Structure  (6)
  • Ecology  (2)
  • Electromagnetic Spectrum  (1)
  • Elements & the Periodic Table  (2)
  • Elements, Compounds, & Mixtures  (1)
  • Endocrine System  (1)
  • Energy & Energy Transfer  (4)
  • Energy Flow & Matter Cycling  (2)
  • Energy, Work, & Power  (3)
  • Entomology  (1)
  • Environmental Microbiology  (1)
  • Eukaryotic Structure & Function  (1)
  • Evidence Collection  (1)
  • Evolution & Adaptation  (7)
  • Fingerprint Analysis  (1)
  • Food Webs  (2)
  • Forces & Motion  (9)
  • Forensic Investigations  (1)
  • Gas Laws  (4)
  • Gene Expression & Regulation  (5)
  • Gene Therapy  (1)
  • Genetic Code & Human Genome  (4)
  • Graphing  (6)
  • Gravity  (1)
  • Growth & Development  (9)
  • Heredity  (6)
  • Human Impacts on Earth Systems  (2)
  • Human Impacts on the Environment  (8)
  • Hydrosphere & Oceans  (1)
  • Immunology  (4)
  • Inheritance of Traits  (11)
  • Integumentary System  (1)
  • Invertebrates  (3)
  • Laws of Conservation  (1)
  • Light, Color, & Optics  (3)
  • Lymphatic & Immune System  (4)
  • Mammals  (2)
  • Matter & Energy Flow in Ecosystems  (3)
  • Mendel's Laws of Inheritance  (3)
  • Mendelian Genetics  (1)
  • Metric Measurement  (2)
  • Microscopy  (1)
  • Mitosis & Meiosis  (5)
  • Motion & Kinematics  (2)
  • Muscular System  (1)
  • Mutations & DNA Repair Systems  (3)
  • Natural Resources & Conservation  (3)
  • Nervous System  (3)
  • Origins & Evolution  (1)
  • PCR  (4)
  • Periodicity  (3)
  • Photosynthesis & Cellular Respiration  (1)
  • Physiology  (2)
  • Plants  (11)
  • Plotting  (4)
  • Polymers  (1)
  • Population & Ecosystem Dynamics  (6)
  • Population Genetics  (3)
  • Properties & States of Matter  (1)
  • Show All
  • Show Less
• Subject
  • Algebra  (2)
  • Anatomy & Physiology  (2)
  • Biology  (20)
  • Chemistry  (5)
  • Data Analysis  (1)
  • Earth Science  (3)
  • Environmental Science & Ecology  (6)
  • Genetics  (12)
  • Microbiology  (3)
  • Middle School Life Science  (1)
  • Molecular Biology  (7)
  • Physical Science  (2)
  • Physics  (2)
  • Problem Solving  (2)
  • Zoology  (1)
  • Show All
  • Show Less
• Discipline
  • Earth & Space Science  (3)
  • Life Science  (21)
  • Mathematics  (3)
  • Physical Science  (5)

Articles & News

• Infographic: Genomics-Driven Oncology Thanks to advances in oncology over the past decade, doctors are better able to diagnose and treat cancer, and ultimately, improve outcomes for patients. Dr. Neil Lamb of HudsonAlpha explains how. View »
• What's the Big Idea? Understanding the Laboratory Experience in the AP* Chemistry Curriculum If you teach AP* Chemistry, you’re already aware, or need to be, that changes to the course curriculum are here, which means you’ll probably have to change your classroom instruction. To help relieve your anxiety, here’s an overview of the course revisions, some important dates to remember, and 2 ways Carolina can help to ensure your success during this transition. View »
• Coming into the Genome Age Part III: The Molecular Genetic Basis of PTC Tasting This experiment links genotype to phenotype and puts a contemporary spin on an old standby of classical genetics. View »
• Coming into the Genome Age Part II: Exploring Human Variation and Evolution This article introduces an experiment that allows students to use their own DNA differences (polymorphisms) to explore human variation, relatedness, and evolution. View »
• Coming into the Genome Age Part I: The Challenge to Science Education Explore resources and activities from the Dolan DNA Learning Center. View »
• Coming into the Genome Age Part IV: Detecting Transgenes in Genetically Modified Food Molecular genetic techniques have been used to add transgenes into the genomes of a number of important food plants. View »
• 5 Steps to Teaching Inquiry in Your Science Classroom Worried about the inquiry lab requirement of the College Board's AP lab curriculum? Here are some great tips from an educator who's already done it. View »
• Give Your Students That "A-ha" Moment Carolina is proud to announce its partnership with the educational outreach team of the HudsonAlpha Institute for Biotechnology to provide educational kits that give students that “aha!” moment. The Institute’s educational products focus on addressing common student misconceptions and introducing students to potential career paths in biotechnology. The Institute also provides valuable FREE digital resources for educators. View »
• Using the Concepts Associated with Providing Clean Drinking Water to Teach Science: An Interdisciplinary Approach Introducing students to the issues associated with safe drinking water is a great real-world, interdisciplinary way to teach science. View »
• Natural Selection Meets Flipped Mastery When Benjamin Bloom introduced mastery learning in the mid 1980s, it was impractical for teachers to implement. Today, widely available technology makes it a practical option. Science teacher Hassan Wilson describes how you can use mastery and flipped learning to revamp your lessons on natural selection. View »
• Using pClone Red for a Science Fair Project on Bacterial Gene Expression The emerging field of synthetic biology attracted the attention of one high school student planning his science fair project. His research—and its award-winning results—may suggest new ways that you can explore gene expression with your students. View »
• From Jellyfish to the Bench: How Green Fluorescent Protein Is Used in Research Students may be familiar with green fluorescent protein (GFP) from classwork or seeing transgenic animals in their local pet store. However, they may not know that it’s also an important research tool. Use this overview to help them discover how scientists use GFP to study many of the major questions in biology. View »
• Bacteriophages in Human Disease: Friends and Foes Help your students understand the connection between bacteriophages and human disease. This scholarly overview explores how bacteriophages have helped and hindered humans in their quest to overcome certain diseases. Use it as assigned reading or to kick off a classroom discussion. View »
• A Flipped Inquiry Approach to Teaching Natural Selection Natural selection, although fascinating, can be difficult to understand. By combining the flipped learning approach with inquiry, you can engage your students as they explore the concept firsthand. View »
• Examples to Use When Teaching About Selection and Evolution: Fox Domestication and Poison Resistance in Rodents To make abstract science concepts more concrete, teachers often use real-life examples. But even classic examples can lose their appeal. Refresh your lessons on evolution and selection with 2 less well known examples. View »
• Carolina's Recommended Reading for AP® Biology Teaching AP® Biology this year? Go beyond the textbook and take students on an exploration of key concepts with these teacher-tested and recommended books. View »
• Population Genetics and Evolution: Asking the Right Questions AP® Biology: It’s a question of shifting population genetics! Apply the Hardy-Weinberg equilibrium model with Wisconsin Fast Plants® and independent student research. See a sample student question sheet from our featured kit’s activities. View »
• From Euglena to Zebra Fish: An Overview of the Diversity of Eyes Did you know scientists study zebrafish to gain further understanding of diseases of the human eye? Why is this? What is the connection between zebrafish and human vision? View »
• Carolina Investigations® for AP® Environmental Sciences: Agriculture and Feeding a Growing Human Population Use this resource and our scientific model checklist to construct a model of food production and consumption. View »
• Measuring pH: Indicators, Paper, and Meters Many activities require pH testing, including chemistry titrations, environmental science water quality testing, and biological processes labs. This article covers tools and techniques. View »
• How to Use Mathematics and Logical Routines Shed light on your students’ aptitude and attitude toward mathematics with these engaging activities. View »
• AP® Chemistry: Graphing Titration Curves Students graph titration data and determine if an acid is monoprotic, diprotic, or triprotic. View »
• Video: Comparing DNA Sequences This engaging video by science teacher Paul Andersen shows you how to compare DNA sequences to understand evolutionary relationships. View »
•