Integrated Science 1   (#2002400)

Version for Academic Year:

Course Standards

General Course Information and Notes

General Notes

Laboratory investigations that include the use of scientific inquiry, research, measurement, problem solving, laboratory apparatus and technologies, experimental procedures, and safety procedures are an integral part of this course. The National Science Teachers Association (NSTA) recommends that at the high school level, all students should be in the science lab or field, collecting data every week. School laboratory investigations (labs) are defined by the National Research Council (NRC) as an experience in the laboratory, classroom, or the field that provides students with opportunities to interact directly with natural phenomena or with data collected by others using tools, materials, data collection techniques, and models (NRC, 2006, p. 3). Laboratory investigations in the high school classroom should help all students develop a growing understanding of the complexity and ambiguity of empirical work, as well as the skills to calibrate and troubleshoot equipment used to make observations. Learners should understand measurement error; and have the skills to aggregate, interpret, and present the resulting data (National Research Council, 2006, p.77; NSTA, 2007).

Special Notes:

Instructional Practices
Teaching from a range of complex text is optimized when teachers in all subject areas implement the following strategies on a routine basis:
  1. Ensuring wide reading from complex text that varies in length.
  2. Making close reading and rereading of texts central to lessons.
  3. Emphasizing text-specific complex questions, and cognitively complex tasks, reinforce focus on the text and cultivate independence.
  4. Emphasizing students supporting answers based upon evidence from the text.
  5. Providing extensive research and writing opportunities (claims and evidence).


Science and Engineering Practices
(NRC Framework for K-12 Science Education, 2010)

  • Asking questions (for science) and defining problems (for engineering).
  • Developing and using models.
  • Planning and carrying out investigations.
  • Analyzing and interpreting data.
  • Using mathematics, information and computer technology, and computational thinking.
  • Constructing explanations (for science) and designing solutions (for engineering).
  • Engaging in argument from evidence.
  • Obtaining, evaluating, and communicating information.

General Information

Course Number: 2002400
Course Path:
Abbreviated Title: INTEG SCI 1
Course Length: Year (Y)
Course Type: Core Academic Course
Course Level: 2
Course Status: Course Approved
Grade Level(s): 9,10,11,12

Educator Certifications

One of these educator certification options is required to teach this course.

Student Resources

Vetted resources students can use to learn the concepts and skills in this course.

Original Student Tutorials

Evaluating Sources of Information:

Learn how to identify different sources of scientific claims and to evaluate their reliability in this interactive tutorial.

Type: Original Student Tutorial

Testing Scientific Claims:

Learn how to test scientific claims and judge competing hypotheses by understanding how they can be tested against one another in this interactive tutorial.

Type: Original Student Tutorial

The Year-Round School Debate: Identifying Faulty Reasoning — Part Two:

Practice identifying faulty reasoning in this two-part, interactive, English Language Arts tutorial. You'll learn what some experts say about year-round schools, what research has been conducted about their effectiveness, and how arguments can be made for and against year-round education. Then, you'll read a speech in favor of year-round schools and identify faulty reasoning within the argument, specifically the use of hasty generalizations. 

Make sure to complete Part One before Part Two! Click HERE to launch Part One.

Type: Original Student Tutorial

The Year-Round School Debate: Identifying Faulty Reasoning – Part One:

Learn to identify faulty reasoning in this two-part interactive English Language Arts tutorial. You'll learn what some experts say about year-round schools, what research has been conducted about their effectiveness, and how arguments can be made for and against year-round education. Then, you'll read a speech in favor of year-round schools and identify faulty reasoning within the argument, specifically the use of hasty generalizations. 

Make sure to complete both parts of this series! Click HERE to open Part Two. 

Type: Original Student Tutorial

Evaluating an Argument – Part Four: JFK’s Inaugural Address:

Examine President John F. Kennedy's inaugural address in this interactive tutorial. You will examine Kennedy's argument, main claim, smaller claims, reasons, and evidence.

In Part Four, you'll use what you've learned throughout this series to evaluate Kennedy's overall argument.

Make sure to complete the previous parts of this series before beginning Part 4.

  • Click HERE to launch Part One.
  • Click HERE to launch Part Two.
  • Click HERE to launch Part Three.

Type: Original Student Tutorial

Evaluating an Argument – Part Three: JFK’s Inaugural Address:

Examine President John F. Kennedy's inaugural address in this interactive tutorial. You will examine Kennedy's argument, main claim, smaller claims, reasons, and evidence. By the end of this four-part series, you should be able to evaluate his overall argument. 

In Part Three, you will read more of Kennedy's speech and identify a smaller claim in this section of his speech. You will also evaluate this smaller claim's relevancy to the main claim and evaluate Kennedy's reasons and evidence. 

Make sure to complete all four parts of this series!

  • Click HERE to launch Part One.
  • Click HERE to launch Part Two.
  • Click HERE to launch Part Four.

Type: Original Student Tutorial

States of Matter: Phase Transitions:

Explore how heat changes the temperature or the state of matter of a material in this interactive tutorial.

Type: Original Student Tutorial

Heat Transfer Processes:

Explore the three types of heat transfer that occur in our world as you complete this interactive tutorial.

Type: Original Student Tutorial

Structure and Function of Fungi: Asexual and Sexual Reproduction (2 of 3):

Learn about asexual and sexual reproduction of fungi in this interactive tutorial. This is Part 2 of 3 in this series on the Structure and Function of Fungi. 

Click HERE to open Part 1, Basic Characteristics and Structures

Click HERE to open Part 3, Nutrition and Mutualistic Relationships

Type: Original Student Tutorial

Ready for Takeoff! -- Part Two:

Want to learn about Amelia Earhart, one of the most famous female aviators of all time? If so, then this interactive tutorial is for YOU! This tutorial is Part Two of a two-part series. In this series, you will study a speech by Amelia Earhart. You will practice identifying the purpose of her speech and practice identifying her use of rhetorical appeals (ethos, logos, pathos, Kairos). You will also evaluate the effectiveness of Earhart's rhetorical choices based on the purpose of her speech.

Please complete Part One before beginning Part Two. Click HERE to view Part One.

Type: Original Student Tutorial

Ready for Takeoff! -- Part One:

Want to learn about Amelia Earhart, one of the most famous female aviators of all time? If so, then this interactive tutorial is for YOU! This tutorial is Part One of a two-part series. In this series, you will study a speech by Amelia Earhart. You will practice identifying the purpose of her speech and practice identifying her use of rhetorical appeals (ethos, logos, pathos, Kairos). You will also evaluate the effectiveness of Earhart's rhetorical choices based on the purpose of her speech.  

Please complete Part Two after completing this tutorial. Click HERE to view Part Two.

Type: Original Student Tutorial

The Cell Cycle and Mitosis:

Follow the life of a cell in the tightly controlled process called the cell cycle! In this interactive tutorial, you will learn how a single cell gives rise to two identical daughter cells during the cell cycle and mitosis.

Type: Original Student Tutorial

Mitosis and Cell Division:

Explore the steps of mitosis and cell division in this interactive tutorial, and see how they result in the separation of a cell's genetic material and division of its contents into two identical daughter cells. 

Type: Original Student Tutorial

Structure and Function of Fungi: Basic Characteristics and Structures (1 of 3):

Learn about the basic characteristics and structures of fungi in Part 1 of 3 in this series on the Structure and Function of Fungi.

Click HERE to open Part 2, Asexual and Sexual Reproduction

Click HERE to open Part 3, Nutrition and Mutualistic Relationships

Type: Original Student Tutorial

Structure and Function of Fungi: Nutrition and Mutualistic Relationships (3 of 3):

Learn about the nutrition and mutualistic relationships of fungi in this interactive tutorial. This is Part 3 of 3 in this series on the Structure and Function of Fungi. 

Click HERE to open Part 1, Basic Characteristics and Structures

Click HERE to open Part 2, Asexual and Sexual Reproduction

Type: Original Student Tutorial

Drones and Glaciers: Eyes in the Sky (Part 2 of 4):

Learn how to identify the central idea and key details of a text, as well as how to write an effective summary in this interactive tutorial. This tutorial is the second tutorial in a four-part series that examines how scientists are using drones to explore glaciers in Peru. 

This tutorial is part 1 of a four-part series. Click below to open the other tutorials in this series.

Type: Original Student Tutorial

Drones and Glaciers: Eyes in the Sky (Part 1 of 4):

Learn about how researchers are using drones, also called unmanned aerial vehicles or UAVs, to study glaciers in Peru. In this interactive tutorial you will practice citing text evidence when answering questions about a text.

This tutorial is part 1 of a four-part series. Click below to open the other tutorials in this series.

Type: Original Student Tutorial

Untangling Food Webs:

Learn how living organisms can be organized into food webs and how energy is transferred through a food web from producers to consumers to decomposers. This interactive tutorial also includes interactive knowledge checks.

Type: Original Student Tutorial

The Macromolecules of Life: Carbohydrates:

Learn about the basic molecular structures and primary functions of carbohydrates with this interactive tutorial.

This is part 2 in a five-part series. Click below to explore other tutorials in the series.

Type: Original Student Tutorial

Reproduction Strategies:

Explore consequences and challenges of reproductive strategies of sea anemones.

Type: Original Student Tutorial

Periphyton in the Everglades:

Explore species interdependence focusing on roles played by periphyton in the Everglades ecosystem with this interactive tutorial.

Type: Original Student Tutorial

Microscope Mathematics:

Learn how you can use a microscope as a tool to measure objects in this interactive tutorial.

Type: Original Student Tutorial

Ecological Data Analysis:

See how data are interpreted to better understand the reproductive strategies taken by sea anemones with this interactive tutorial.

Type: Original Student Tutorial

Ecology Sampling Strategies:

Examine field sampling strategies used to gather data and avoid bias in ecology research. This interactive tutorial features the CPALMS Perspectives video Sampling Strategies for Ecology Research in the Intertidal Zone.

Type: Original Student Tutorial

Analyzing Patterns of Inheritance:

Learn strategies to help you solve genetics problems by applying your knowledge of inheritance patterns. You’ll encounter a few “mystery cases” that you’ll solve through your genetics analysis in this interactive tutorial.

Type: Original Student Tutorial

The Macromolecules of Life: Lipids:

Learn about the basic molecular structures and primary functions of lipids with this interactive tutorial.

This is part 3 in a five-part series. Click below to explore other tutorials in the series.

Type: Original Student Tutorial

The Mystery of Muscle Cell Metabolism:

Explore the mystery of muscle cell metabolism and how cells are able to meet the need for a constant supply of energy. In this interactive tutorial, you'll identify the basic structure of adenosine triphosphate (ATP), explain how ATP’s structure is related it its job in the cell, and connect this role to energy transfers in living things.

Type: Original Student Tutorial

Cells, Cells Everywhere!:

Learn how to identify explicit evidence and understand implicit meaning in the basic principles of the cell theory. The cell theory states that all organisms are made of cells. These cells are the smallest and basic unit of life. And finally, cells can only come from other cells.

Type: Original Student Tutorial

Eliminating Exotics: Identifying and Assessing Research for Quality and Usefulness:

Explore the topic of invasive exotics in Florida while you learn to distinguish relevant from irrelevant information in research sources, identify authoritative sources from a group of varied resources, and dissect a research question in order to identify keywords for a search of resources. With this interactive tutorial, you'll also learn to use advanced search features to find appropriate sources to address a research question and assess the usefulness of sources when addressing a specific research question. 

Type: Original Student Tutorial

Cell Types:

Learn how to classify cells as prokaryotic or eukaryotic and distinguish eukaryotic cells as plant or animal.

Type: Original Student Tutorial

Comparing Mitosis and Meiosis:

Compare and contrast mitosis and meiosis in this interactive tutorial. You'll also relate them to the processes of sexual and asexual reproduction and their consequences for genetic variation.

Type: Original Student Tutorial

The Macromolecules of Life: Proteins:

Learn about the basic molecular structures and primary functions of proteins with this interactive tutorial.

This is part 4 in a five-part series. Click below to explore other tutorials in the series.

Type: Original Student Tutorial

Evolution: Examining the Evidence:

Learn how to identify explicit evidence and understand implicit meaning in a text.

You should be able to explain how different types of scientific evidence support the theory of evolution, including direct observation, fossils, DNA, biogeography, and comparative anatomy and embryology.

Type: Original Student Tutorial

Energy and Matter Movement through Biogeochemical Cycles:

Learn how to trace matter and energy through living and non-living systems and understand that matter and energy are transferred on a global scale.

Type: Original Student Tutorial

Earliest Beginnings :

Learn how to identify and describe the leading scientific explanations of the origin of life on Earth.

Type: Original Student Tutorial

Scientific Laws and Theories:

Learn what scientific laws and scientific theories are and how they are different from what we commonly call laws and theories outside of science with this interactive tutorial.

Type: Original Student Tutorial

Changing with the Times: Variation within Ecosystems:

 Explore how environmental changes at different time scales affect living organisms within ecosystems.

Type: Original Student Tutorial

Fueling the Body: Cellular Respiration:

Explore how organisms gain usable energy and compare the two types of cellular respiration; aerobic and anaerobic. In this interactive tutorial, you'll also learn about reactants and products of both aerobic and anaerobic respiration.

Type: Original Student Tutorial

Cellular Transport: The Role of the Cell Membrane:

Learn about the function of the cell membrane as a selective barrier that moves material into and out of the cell to maintain homeostasis with this interactive tutorial.

Type: Original Student Tutorial

The Macromolecules of Life: Nucleic Acids:

Learn to identify and describe the structural and functional features of nucleic acids, one of the 4 primary macromolecule groups in biological systems, with this interactive tutorial.

This is Part 3 in 5-part series. Click below to open the other tutorials in the series:

Type: Original Student Tutorial

Meiosis: A Special Kind of Cell Division:

Learn how to describe Meiosis, the process by which sex cells--the sperm and the egg--are created in living things. In this interactive tutorial, you will also discover how sexual reproduction results in genetically diverse offspring.

Type: Original Student Tutorial

Observation vs. Inference:

Learn how to identify explicit evidence and understand implicit meaning in a text and demonstrate how and why scientific inferences are drawn from scientific observation and be able to identify examples in biology.

Type: Original Student Tutorial

Cool Case Files:

Learn that a scientific theory is the culmination of many experiments and supplies the most powerful explanation that scientists have to offer with this interactive tutorial.

Type: Original Student Tutorial

Cancer: Mutated Cells Gone Wild!:

Explore the relationship between mutations, the cell cycle, and uncontrolled cell growth which may result in cancer with this interactive tutorial.

Type: Original Student Tutorial

Diagramming Diversity 1:

Learn how living organisms are classified according to their characteristics, which reflects their evolutionary history and relationships, as you complete this interactive tutorial.

Type: Original Student Tutorial

Types of Microscopes:

Learn how to determine differences and similarities of the structure and function of compound light microscopes, dissecting microscopes, scanning electron microscopes and transmitting electron microscopes.

Type: Original Student Tutorial

Diagramming Diversity II:

Learn to explain how a phylogenetic tree, or cladogram, is used to classify living organisms based on inherited similarities, and how it relates to other methods of hierarchical classification.

Type: Original Student Tutorial

Defining Science:

Learn how to define what science is and what it is not. In this interactive tutorial, you will identify why certain ways of exploring the universe can and cannot be considered scientific practices.

Type: Original Student Tutorial

The Macromolecules of Life: Overview:

Learn to identify the four basic biological macromolecules (carbohydrates, lipids, proteins, and nucleic acids) by structure and function with this interactive tutorial.

This is part 1 in a five-part series. Click below to explore other tutorials in the series.

Type: Original Student Tutorial

Water and Life:

Learn how the chemical properties of water relate to its physical properties and make it essential for life with this interactive tutorial.

Type: Original Student Tutorial

Classification using DNA:

Learn how to explain differences in genetic and non-genetic classification methods. You should also know why genetic evidence is very powerful for understanding evolutionary relationships among organisms.

Type: Original Student Tutorial

Photosynthesis: Capturing the Sun's Energy to Create Sugar:

Learn how to identify and describe the role of all of the major molecules needed for photosynthesis. You'll also be able to explain the role that photosynthesis plays in capturing carbon from the atmosphere to produce sugars. 

Type: Original Student Tutorial

Classification of Living Organisms:

Explore the characteristics of domains and kingdoms used to classify living organisms with this interactive tutorial. You also will learn more about the reasons behind how and why this classification is done. 

Type: Original Student Tutorial

Question Quest:

Learn to distinguish between questions that can be answered by science and questions that science cannot answer. This interactive tutorial will help you distinguish between science and other ways of knowing, including art, religion, and philosophy.

Type: Original Student Tutorial

Plant Organs:

Learn about the structure, function, and evolutionary origins of plant tissues and organs with this interactive tutorial.

Type: Original Student Tutorial

Diving the Depths of Underwater Life:

Learn how the distribution of aquatic life forms is affected by light, temperature, and salinity with this interactive tutorial.

Type: Original Student Tutorial

Climbing Around the Hominin Family Tree:

Learn to identify basic trends in the evolutionary history of humans, including walking upright, brain size, jaw size, and tool use in "Climbing Around the Hominin Family Tree" online tutorial.

Type: Original Student Tutorial

Energy and Carbon in Photosynthesis and Cellular Respiration:

Learn more about photosynthesis and cellular respiration. In this interactive tutorial, you will gain awareness of the connections between these two very important processes with regard to energy and carbon. 

Type: Original Student Tutorial

Educational Game

Cell Structure Crossword Puzzle:

This cell structure crossword puzzle uses vocabulary from CELLS alive! If you have trouble and need a hint, use the "Search this Site" engine in the lefthand menu. Good Luck!

Type: Educational Game

Image/Photograph

NASA Flyer: Small Business Innovation Research (SBIR) and ecomonic impacts of space research:

This flyer describes how NASA partners with small businesses for research and development to further space exploration. It directly discusses the impact of research on the economy and provides specific examples of innovations that resulted from partnerships with small businesses.

Type: Image/Photograph

Lesson Plans

Sea Level Rise: The Ocean's Uplifting Experience:

The purpose of this lesson is to introduce students to the concept of sea level rise as it occurs through climate change by having them examine 3 specific parameters:  ice distribution, thermal expansion, and analyzing and interpreting data.  The lesson and activities within the lesson were designed using the three dimensions of the Framework for K-12 Science Education and the Next Generation Science Standards – specifically crosscutting concepts, science and engineering practices, and disciplinary core ideas. While there isn’t any required pre-requisite learning required for this lesson, a general understanding of sea-level rise, glaciers, and climate may be beneficial to students. During classroom breaks, pairs of students will develop/discuss their models, revise their interpretations of their models or data, and think-pair-share their thoughts on the investigation segments.

Type: Lesson Plan

Elasticity: Studying How Solids Change Shape and Size:

This lesson's primary focus is to introduce high school students to the concept of Elasticity, which is one of the fundamental concepts in the understanding of the physics of deformation in solids. The main learning objectives are: (1) To understand the essential concept of Elasticity and be able to distinguish simple solids objects based on degree and extent of their elastic properties; (2) To appreciate the utility of the elastic force vs. deformation curve through experiments; (3) To be aware of potential sources of error present in such experiments and identify corrective measures; and (4) To appreciate the relevance of Elasticity in practical applications.

Type: Lesson Plan

CO2: Find Out What It Means to You:

This BLOSSOMS lesson discusses Carbon Dioxide, and its impact on climate change. The main learning objective is for students to become more familiar with human production of Carbon Dioxide gas, as well as to gain an awareness of the potential for this gas to effect the temperature of Earth’s atmosphere. This lesson should take about an hour to complete. In order to complete the lesson, the teacher will need: printed copies of signs representing the different products and processes that take place in the carbon cycle (included), samples of matter that represent those products, handouts for the students to create a graphic of the carbon cycle (included) and graph paper or graphing software for students to create graphs. In the breaks of this BLOSSOMS lesson, students will be creating models of the carbon cycle as well as observing experiments and analyzing data from them. It is hoped that this lesson will familiarize students with ways in which carbon moves through our environment and provide them with some personal connection to the impact that an increased concentration of CO2 can have on air temperature. The goal is to spark their interest and hopefully to encourage them to ask and investigate more questions about the climate. 

Type: Lesson Plan

Meet the Family: Investigating Primate Relationships:

In this lesson students will see the different types of evidence scientists use to understand evolutionary relationships among organisms. They will first practice by using shared physical characteristics to predict relationships among members of the cat family and then use this approach to predict primate relationships. They will compare their predictions to evidence provided by analyzing amino acid sequences and build a phylogenetic tree based on these sequences. Finally, they will look at the tree in the context of time in order to see divergence times.

Type: Lesson Plan

Hanging by a Thread:

This lesson focuses on two elements: understanding Newton’s laws of motion, and how to use Newton’s laws to create force diagrams. This lesson also demonstrates how to incorporate requirements of the Next Generation Science Standards (NGSS) into a physics lesson. It uses a discrepant event (phenomenon) to model forces at work on an object resulting in motion. 

Type: Lesson Plan

Perspectives Video: Experts

Mathematically Exploring the Wakulla Caves:

The tide is high!  How can we statistically prove there is a relationship between the tides on the Gulf Coast and in a fresh water spring 20 miles from each other?

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Properties and Structures of Subatomic Particles:

Do you know everything about protons? Are you positive?

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

The Discovery and Behavior of Antimatter:

Learn more about the atomic model and antimatter!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Coral Varieties and their Place in Aquatic Systems:

Learn all the information about coral and corral that knowledge!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Physical and Chemical Changes in Food :

Don't overreact when this chemist describes physical and chemical changes that you can observe in your own kitchen!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Ocean Currents and Aquatic Life:

Too many ideas about ocean currents swirling around in your head? Get into the flow of things with this video.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Agriculture: Plant Propagation via Asexual Reproduction:

This plant geneticist wants to propagate knowledge about different kinds of plant propagation.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Agriculture: Mitosis and Meiosis:

Your understanding of agriscience will bloom and grow as this plant geneticist describes how they use mitosis and meiosis when developing new grape varieties.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Physical Adaptation to Low Light Aquatic Environments:

This biologist will brighten your day with a discussion on colorful (or not) ways that marine organisms have adapted to ocean lighting.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Oil Fingerprinting:

Humans aren't the only ones who get their fingerprints taken. Learn how this scientist is like a crime scene investigator using oil "fingerprints" to explain the orgins of spilled oil.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Photosynthesis in Space:

A NASA botanist explains how studying photosynthesis now can help feed astronauts in the future.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

How do Fish Stay in their Zone?:

Sink into science as a biologist floats a few thoughts about physiological adaptations marine animals use to stay at the right depth.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Dissolved Oxygen in Aquatic Ecosystems:

Dissolved oxygen is important to all life in and out of the water! Learn more in this video!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Expert

Perspectives Video: Professional/Enthusiasts

Boat Propellers:

We'll be looking at the role of pitch, number of blades and material for outboard motor props as it relates to the propulsion of a boat

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Interaction of the Spheres:

Jeff Dutrow discusses how the interactions of spheres impacts fish behaviors including tides, currents, and seasons.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Unit Conversions:

Get fired up as you learn more about ceramic glaze recipes and mathematical units.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Shape Affects Sound:

Learn how the shape of a didgeridoo affects its sound in this totally tubular video.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Using Infrared Light to Analyze Materials:

One way to figure out what something is made of is to see what kinds of wavelengths of electromagnetic energy it can absorb.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Wave Frequency and Audio Engineering:

Want to watch a video on audio engineering and frequency? Sounds good to me.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

See the Four States of Matter in Welding!:

A welder wields a plasma torch to cut solid metal like a hot knife through butter. It's one-stop shopping to see all four states of matter.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Oceans and Energy Transfer:

Dive deep into science as an oceanographer describes conduction, convection, and radiation and their relationship to oceanic systems.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Blacksmithing and Heat Transfer:

Forge a new understanding of metallurgy and heat transfer by learning how this blacksmith and collier make nails.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Bring Frequencies to Life with Balinese Music:

It's okay if you're not on quite the same wavelength as this ethnomusicologist. In Balinese gamelan tuning, that's a good thing!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Physics of Bass Guitar:

If physics has you down, don't fret - this musician covers all the bases.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Frequencies and Communities in the Music of Bali:

Physical science and social science connect in this discussion of Balinese gamelan. Full STEAM ahead!

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Using the Electromagnetic Spectrum to Detect Hydrogen Fires:

Learn more about how splitting light beams helps researchers detect hydrogen fires for the space program.

Download the CPALMS Perspectives video student note taking guide.

Type: Perspectives Video: Professional/Enthusiast

Presentation/Slideshows

Cell Processes and Energy: Photosynthesis and Respirataion:

This presentation, a narrated PowerPoint, provides detailed information regarding photosynthesis and cellular respiration. It is provided by a teacher for his students, but is well-done and engaging enough to be useful for other students.

Type: Presentation/Slideshow

What Killed the Dinosaurs?:

It is often difficult, sometimes impossible, to get a definitive answer to some of life's most enduring questions. Scientific processes provide alternative explanations for a wide variety of phenomena by piecing together all the available information. This interactive activity on the Evolution website explores four possible hypotheses to explain what caused the extinction of the dinosaurs 65 million years ago, inviting the viewer to consider the evidence and come to their own decision.

Type: Presentation/Slideshow

Problem-Solving Tasks

Weed Killer:

The principal purpose of the task is to explore a real-world application problem with algebra, working with units and maintaining reasonable levels of accuracy throughout. Students are asked to determine which product will be the most economical to meet the requirements given in the problem.

Type: Problem-Solving Task

Dinosaur Bones:

The purpose of this task is to illustrate through an absurd example the fact that in real life quantities are reported to a certain level of accuracy, and it does not make sense to treat them as having greater accuracy.

Type: Problem-Solving Task

Bus and Car:

This task operates at two levels. In part it is a simple exploration of the relationship between speed, distance, and time. Part (c) requires understanding of the idea of average speed, and gives an opportunity to address the common confusion between average speed and the average of the speeds for the two segments of the trip.

At a higher level, the task addresses MAFS.912.N-Q.1.3, since realistically neither the car nor the bus is going to travel at exactly the same speed from beginning to end of each segment; there is time traveling through traffic in cities, and even on the autobahn the speed is not constant. Thus students must make judgments about the level of accuracy with which to report the result.

Type: Problem-Solving Task

Accuracy of Carbon 14 Dating I:

This task examines, from a mathematical and statistical point of view, how scientists measure the age of organic materials by measuring the ratio of Carbon 14 to Carbon 12. The focus here is on the statistical nature of such dating.

Type: Problem-Solving Task

Accuracy of Carbon 14 Dating II:

This task examines, from a mathematical and statistical point of view, how scientists measure the age of organic materials by measuring the ratio of Carbon 14 to Carbon 12. The focus here is on the statistical nature of such dating.

Type: Problem-Solving Task

Fuel Efficiency:

The problem requires students to not only convert miles to kilometers and gallons to liters but they also have to deal with the added complication of finding the reciprocal at some point.

Type: Problem-Solving Task

How Much Is a Penny Worth?:

This task asks students to calculate the cost of materials to make a penny, utilizing rates of grams of copper.

Type: Problem-Solving Task

Runner's World:

Students are asked to use units to determine if the given statement is valid.

Type: Problem-Solving Task

Harvesting the Fields:

This is a challenging task, suitable for extended work, and reaching into a deep understanding of units. Students are given a scenario and asked to determine the number of people required to complete the amount of work in the time described. The task requires students to exhibit MAFS.K12.MP.1.1, Make sense of problems and persevere in solving them. An algebraic solution is possible but complicated; a numerical solution is both simpler and more sophisticated, requiring skilled use of units and quantitative reasoning. Thus the task aligns with either MAFS.912.A-CED.1.1 or MAFS.912.N-Q.1.1, depending on the approach.

Type: Problem-Solving Task

Traffic Jam:

This resource poses the question, "how many vehicles might be involved in a traffic jam 12 miles long?"

This task, while involving relatively simple arithmetic, promps students to practice modeling (MP4), work with units and conversion (N-Q.1), and develop a new unit (N-Q.2). Students will also consider the appropriate level of accuracy to use in their conclusions (N-Q.3).

Type: Problem-Solving Task

Selling Fuel Oil at a Loss:

The task is a modeling problem which ties in to financial decisions faced routinely by businesses, namely the balance between maintaining inventory and raising short-term capital for investment or re-investment in developing the business.

Type: Problem-Solving Task

Felicia's Drive:

This task provides students the opportunity to make use of units to find the gas needed (MAFS.912.N-Q.1.1). It also requires them to make some sensible approximations (e.g., 2.92 gallons is not a good answer to part (a)) and to recognize that Felicia's situation requires her to round up. Various answers to (a) are possible, depending on how much students think is a safe amount for Felicia to have left in the tank when she arrives at the gas station. The key point is for them to explain their choices. This task provides an opportunity for students to practice MAFS.K12.MP.2.1: Reason abstractly and quantitatively, and MAFS.K12.MP.3.1: Construct viable arguments and critique the reasoning of others.

Type: Problem-Solving Task

Calories in a Sports Drink:

This problem involves the meaning of numbers found on labels. When the level of accuracy is not given we need to make assumptions based on how the information is reported. An unexpected surprise awaits in this case, however, as no reasonable interpretation of the level of accuracy makes sense of the information reported on the bottles in parts (b) and (c). Either a miscalculation has been made or the numbers have been rounded in a very odd way.

Type: Problem-Solving Task

Student Center Activity

Dihybrid Cross Problem Set:

In this problem set, multiple choice problems are displayed one at a time. If students answer correctly, they are shown a short explanation. If their answer is incorrect, a tutorial will follow, and the students will be given another chance to answer.

Type: Student Center Activity

Text Resources

Mitosis Online Activity:

Mitosis internet exploration: Identifying the different stages of mitosis in plant and animal cells.

Type: Text Resource

What you Need to Know about Energy:

This site from the National Academy of Sciences presents uses, sources, costs, and efficiency of energy.

Type: Text Resource

American Elements:

This web site features an interactive periodic chart that provides information on the elements, including a description, physical and thermal properties, abundance, isotopes, ionization energy, the element's discoverer, translations of element names into several languages, and bibliographic information on research-and-development publications involving the element. Additional information includes technical information and information on manufactured products for elemental metals, metallic compounds, and ceramic and crystalline products. The American Elements company manufactures engineered and advanced material products.

Type: Text Resource

Tutorials

Phases of Meiosis II:

This video discusses the phases of Meiosis (Part 2 of 2).

Type: Tutorial

Phases of Meiosis I:

This video discusses the phases of Meiosis (Part 1 of 2).

Type: Tutorial

Spermatogenesis:

Spermatogenesis is the process in which spermatozoa are produced from male primordial germ cells by way of mitosis and meiosis. This tutorial will help the learners to understand the process of spermatogenesis.

Type: Tutorial

How Meiosis Works:

This tutorial discusses the process of meiosis which results in the formation of sperm cells and egg cells. It is the process by which diploid cells become haploid gametes.

Type: Tutorial

Meiosis:


This animation describes what occurs in a cell during the process of meiosis. Each phase of meiosis is defined and a visual accompanies the definition. Students can see the process of a diploid cell becoming a haploid cell.

Type: Tutorial

Photosynthesis: The Calvin Cycle:


This tutorial is a step by step explanation of what occurs in photosynthesis during the Calvin Cycle. It describes and uses visuals for the chemical reactions in this biochemical pathway. This challenging tutorial addresses the standard at a high level of complexity.

Type: Tutorial

Photosynthesis: The Light Reaction:


This tutorial shows and describes what occurs during the light reactions of photosynthesis which is the first stage of photosynthesis when plants capture and store energy from sunlight. In this process, light energy is converted into chemical energy, in the form of the energy-carrying molecules ATP and NADPH.

Type: Tutorial

Mitosis and DNA Replication:

This tutorial discusses the process of mitosis in detail, describing the events that occur during interphase, prophase, metaphase, anaphase, and telephase. The process of DNA replication is also explained.

Type: Tutorial

Cell Structure and Function:

This tutorial is a basic unit on cellular biology. The unit introduces the cell theory and its parts. It also discusses the importance of microscopes while studying cells. This presentation describes animal and plant cells in detail and discusses the organelles found in each.

Type: Tutorial

Oxidation and Reduction in Cellular Respiration:

This Khan Academy video explains how oxidation and reduction reactions occur in cellular respiration. The chemical equation for cellular respiration is examined and broken down to show where each type of the reactions occur.

Type: Tutorial

CAM Plants:

This Khan Academy video explains how CAM plants fix carbon dioxide at night so they do not lose water by opening their stomata during the day.

Type: Tutorial

C4 Photosynthesis:

The Khan Academy video discusses how some plants avoid photorespiration by fixing carbon in the bundle sheath cells instead of the mesophylll cells.

Type: Tutorial

Photorespiration:

This Khan Academy video reviews the Calvin Cycle in C3 photosynthesis and discusses the reactants and products of this process. The video then describes photorespiration which is what occurs when the enzyme RuBisCO fixes oxygen instead of carbon dioxide and explains why this is considered an inefficient pathway for plants.

Type: Tutorial

Taxonomy and the Tree of Life:

This Khan Academy video discusses the science of taxonomy and where humans fit into the tree of life.

Type: Tutorial

Species:

This Khan Academy video explains the definition of species and provides examples of animals that belong to the same species.

Type: Tutorial

Punnet Square Fun:

This Khan Academy video explains and demonstrates how to use Punnett Squares for monohybrid crosses and dihybrid crosses. The video also shows how to use Punnett Squares for inheritance patterns such as codominance, incomplete dominance, and multiple alleles.

Type: Tutorial

DNA:

This Khan Academy video describes the structure of the molecule DNA in great detail. It also discuses the role DNA plays in the process of protein synthesis, explaining transcription and translation. The video discusses the relationship between DNA and chromosomes as well.

Type: Tutorial

Oxidative Phosphorylation and Chemiosmosis:

This Khan Academy video explains how ATP is generated in the electron transport chain through the process of oxidative phosphorylation and chemiosmosis. It also explains the differences between oxidative phosphorylation and substrate level phosphorylation.

Type: Tutorial

Cellular Respiration: The Electron Transport Chain:

This Khan Academy video explains how the NADH And FADH2 that were made during glycolysis and the Kreb's Cycle are used to generate ATP through the electron transport chain.

Type: Tutorial

Cellular Respiration: Glycolysis:

This Khan Academy tutorial describes in detail the process of glucose being broken down into pyruvate during glycolysis. Glycolysis is the first biochemical pathway of cellular respiration.

Type: Tutorial

Cellular Respiration: Kreb's Cycle:

This Khan Academy video describes how the pyruvate produced in glycolysis undergoes oxidation to produce Acetyl CoA. The video then explains what occurs when Acetyl CoA enters the Kreb's cycle and how NADH and FADH2 are produced.

Type: Tutorial

Photosynthesis: The Light Reactions:

This Khan Academy tutorial explains in detail the process of the light reactions of photosynthesis including the importance of the thylakoid membrane and the products that are produced from this reaction.

Type: Tutorial

Photosynthesis: The Calvin Cycle:

This Khan Academy tutorial explains how the by-products from the light reactions of photosynthesis are used to produce sugar molecules in the Calvin Cycle.

Type: Tutorial

Comparison of Meiosis and Mitosis:

This tutorial will help you to understand the differences and similarities between meiosis and mitosis.

Type: Tutorial

Unique Features of Meiosis:

This tutorial will help you to understand the three unique features of meiosis and how meiosis is related to genetic inheritance.

Type: Tutorial

Stages of Meiosis:

This animation details the process of meiosis and explains each of the stages.

Type: Tutorial

Mineral Transport in Plants:

This tutorial will help you to understand how minerals are absorbed by the root hair in plants.

Type: Tutorial

Cell Membrane Function:

This tutorial will help you to understand how a molecule can be transported across a membrane against a concentration gradient. Cellular membranes function to keep the internal environment of the cell distinct from the external environment. Concentrations of many molecules differ across cellular membranes. This animation shows the function of the sodium potassium pump.

Type: Tutorial

Water Transport in Plants:

This tutorial will help you to understand how plant cells intake water. This animation shows how water is transported from the root systems of plants upwards to the leaves.

Type: Tutorial

Diffusion and Osmosis:

This Khan Academy tutorial guides you through the processes of diffusion and osmosis while explaining the vocabulary and terminology involved in detail.

Type: Tutorial

Meiosis II:

This tutorial will help you to understand how meiosis II is very similar to mitosis. In both cases, chromosomes line up and sister chromatids are separated by the action of the spindle fibers.

Type: Tutorial

Meiosis 1:

This tutorial will help you to understand the unique features of the first round of meiosis. In meiosis 1, members of homologous chromosome pairs are separated. This results in the segregation of genes into two gametes.

Type: Tutorial

Comparison of Meiosis and Mitosis:

This tutorial will help students understand the differences between meiosis and mitosis. The processes differ in two fundamental ways. Meiosis has two rounds of genetic separation and cellular division while mitosis only has one of each. In meiosis, homologous chromosomes separate leading to daughter cells that are not genetically identical. In mitosis, the daughter cells are identical to the parent as well as to each other.

Type: Tutorial

Cytoplasmic Streaming in Cells:

This animation discusses how different organisms use cytoplasmic streaming. It further discusses the mechanism of cytoplasmic streaming in Nitella, a green alga.

Type: Tutorial

Introduction to the Cell Membrane:

This Khan Academy tutorial addresses the importance of the phospholipid bilayer in the structure of the cell membrane. The types of molecules that can diffuse through the cell membrane are also discussed.

Type: Tutorial

Parts of the Cell:

This Khan Academy tutorial describes the differences between prokaryotic and eukaryotic cells. It then goes on to discuss in detail the structures and their functions found in the eukaryotic cell.

Type: Tutorial

Introduction to Cellular Respiration:

This Khan Academy video describes how energy is extracted from the glucose molecule to make ATP. Each biochemical pathway involved in cellular respiration is discussed.

Type: Tutorial

Proton Pump:

This tutorial will help you to understand how a concentration gradient across a membrane is used. When a molecule or an ion is moved across a membrane from an area of low concentration to an area of high concentration then a gradient is generated. This gradient can be chemical or it can also create a difference in electrical charge across the membrane if ions are involved. The proton pump generates an electrical and chemical gradient that can be used to create ATP which can drive a large number of different biochemical reactions.

Type: Tutorial

Cell Membrane Proteins:

Students will learn about the different types of proteins found in the cell membrane while viewing this Khan Academy tutorial video.

Type: Tutorial

Viruses:

This introduction to viruses by the Khan Academy addresses the question: Are viruses alive? How viruses enter cells and replicate is discussed in detail.

Type: Tutorial

Bacteria:

This video from the Khan Academy introduces the symbiotic relationship between the many bacteria that live inside the human body. The basics of bacteria structure, reproduction, and bacterial infections are discussed.

Type: Tutorial

How Glycolysis Works:

This animation shows the process of glycolysis. The reactants, products, and the basic functions of aerobic and anaerobic cellular respiration are identified.

Type: Tutorial

Electron Transport System and ATP Synthesis:

This animation shows the electron transport chain, which is a series of compounds that transfers electrons from electron donors to electron acceptors via redox reactions. This electron transfer is coupled with the transfer of protons across a membrane.

This animation addresses the concept at a high level of complexity.

Type: Tutorial

ATP Synthesis During Photosynthesis:

Photosynthesis is often described as the reverse of cellular respiration. Respiration breaks down complex molecules to release energy that is used to make ATP. Photosynthesis takes energy from photons and uses it to build complex molecules. However both systems use an electron transport chain and associated proton pump and ATP synthase as a key part of the process. This tutorial will help you to understand the electron transport chain and ATP synthesis.

Type: Tutorial

Sodium Potassium Exchange Pump:

This tutorial will help you to understand how sodium and potassium ions are pumped in opposite directions across a membrane building up a chemical and electrical gradient for each. These gradients can be used to drive other transport processes.

Type: Tutorial

Calvin Cycle:

The Calvin cycle is a metabolic pathway found in the stroma of plant chloroplasts in which carbon enters in the form of carbon dioxide and leaves in the form of sugar. This tutorial will help you to understand how the Calvin cycle works.

This challenging tutorial addresses the standard at a high level of complexity.

Type: Tutorial

Sensory Systems in Plants:

This tutorial will help you to understand phytochromes in plants and how they affect plant growth. Phytochromes are pigment containing proteins that play an important role in plant regulation, including the germination of seeds.

Type: Tutorial

How Osmosis Works:

This tutorial will help you to understand how the concentration of molecules in solution in water can cause the movement of water across a membrane which is also known as osmosis. Preventing the loss or gain of too much water through osmosis is often an important challenge for cells.

Type: Tutorial

Meiosis with Crossing Over:

An important fundamental concept of genetics is the idea of independent assortment. This states that genes are inherited independently of one another. This tutorial will help you better understand crossing over and independent assortment during meiosis.

Type: Tutorial

Active Transport and the Sodium-Potassium Exchange Pump:

This tutorial will help you to understand the process of active transport. Sodium and potassium ions are pumped in opposite directions across the membrane building up a chemical and electrical gradient for each.

Type: Tutorial

Some Genes are Dominant:

This tutorial will help you to understand how Mendel, the father of genetics, planned and crossed the pure-bred pea plant to understand the process of genetics. With the help of the animation, you should be able to understand how the alleles are transferred from one generation to another.

Type: Tutorial

Comparison of Meiosis and Mitosis:

This tutorial will help you compare meiosis and mitosis. It discusses the similarities that are found in both, as well as the fundamental differences between the two types of cell division.

Type: Tutorial

Stages of Meiosis:

Meiosis is the process by which a diploid eukaryotic cell divides to generate four haploid cells. This process is important in forming gametes for sexual reproduction. This tutorial will help you understand the process of meiosis and its various stages.

Type: Tutorial

Unique Features of Meiosis:

This tutorial will help you to understand the basic principles of genetic inheritance which are segregation and independent assortment of two alleles.

The principles of genetic inheritance are based on unique features of meiosis. Synapsis of homologous chromosomes and the separation of the homologous pairs during anaphase 1 cause the segregation of alleles. Crossing over and the random separation of chromosomes cause independent assortment.

Type: Tutorial

Regulated Secretion:

This online tutorial will help you to understand the process of regulated secretion. In regulated secretion, proteins are secreted from a cell in large amounts when a specific signal is detected by the cell. The specific example used in this tutorial is the release of insulin after a glucose signal enters a pancreatic beta cell.

Type: Tutorial

Meiosis:


This tutorial will help students understand the process of meiosis. Each stage in the process of meiosis is explained and animated in this tutorial.

Type: Tutorial

Ice Accelerating Down an Incline:

This video tutorial from the Khan Academy explains how to calculate the acceleration of ice down a plane made of ice.

Type: Tutorial

Inclined plane force components:

This video tutorial shows how to figure out the components of force due to gravity that are parallel and perpendicular to the surface of an inclined plane.

Type: Tutorial

Mirror Processes:

This tutorial will help students to understand that both the process of photosynthesis and cellular respiration use hydrogen ions and high-energy electrons to make molecules of ATP. Learners will be able to compare the light dependent reactions of photosynthesis and the electron transport chain of cellular respiration.

Type: Tutorial

Photosynthesis:


This tutorial will help the learner understand the process of photosynthesis. They will explore the process and see how photosynthetic organisms capture energy from sunlight to make sugars that store chemical energy.

Type: Tutorial

Atoms and Bonding:

This tutorial will help the learner understand the relationship between atoms, their electrons, and the chemical bonds they can form.

Type: Tutorial

Cells Through Different Microscopes:

This tutorial will help the learner visualize how a cell or single celled organism can differ in its view when looked at under different magnifications and different types of microscopes. This tutorial can be used by the teacher as an added resource for their lesson about different microscopes and how they work..

Type: Tutorial

Endosymbiosis:

The theory of endosymbiosis suggests that mitochondria and chloroplasts were once free-living, small prokaryotes that were taken up by larger prokaryotes. It also describes how a large host cell and ingested bacteria could easily become dependent on one another for survival, resulting in a permanent relationship. This tutorial will help the learners to understand the process of endosymbiosis.

Type: Tutorial

Human Chromosomes:

This tutorial will allow the student to model the process of making a karyotype which is a picture of all the chromosomes in a cell. Students will match each pair of chromosomes by their size, the size and location of chromosome bands, and location of the centromere.

Type: Tutorial

Cellular Respiration:

This tutorial reviews the process of cellular respiration which is the set of metabolic reactions and processes that take place in the cells of organisms to convert biochemical energy from nutrients into adenosine triphosphate (ATP).

Type: Tutorial

The Simple Story of Photosynthesis and Food :

Photosynthesis is an essential part of the exchange between humans and plants. Amanda Ooten walks us through the process of photosynthesis, also discussing the relationship between photosynthesis and carbohydrates, starch, and fiber -- and how the air we breathe is related to the food we ingest.

Type: Tutorial

How Polarity Makes Water Behave Strangely:

Water is both essential and unique. Many of its particular qualities stem from the fact that it consists of two hydrogen atoms and one oxygen, therefore creating an unequal sharing of electrons. From fish in frozen lakes to ice floating on water, Christina Kleinberg describes the effects of polarity.

Type: Tutorial

Not All Scientific Studies are Created Equal:

Every day, we are bombarded by attention grabbing headlines that promise miracle cures to all of our ailments -- often backed up by a "scientific study." But what are these studies, and how do we know if they are reliable? David H. Schwartz dissects two types of studies that scientists use, illuminating why you should always approach the claims with a critical eye.

Type: Tutorial

Nature's Smallest Factory: The Calvin Cycle:

A hearty bowl of cereal gives you the energy to start your day, but how exactly did that energy make its way into your bowl? It all begins with photosynthesis, the process that converts the air we breathe into energizing glucose. Cathy Symington details the highly efficient second phase of photosynthesis -- called the Calvin cycle -- which converts carbon dioxide into sugar with some clever mix-and-match math.

Type: Tutorial

The Carbon Cycle:

What exactly is the carbon cycle? Nathaniel Manning provides a basic look into the cyclical relationship of carbon, humans and the environment.

Type: Tutorial

Dead Stuff: The Secret Ingredient in Our Food Chain:

When you picture the lowest levels of the food chain, you might imagine herbivores happily munching on lush, living green plants. But this idyllic image leaves out a huge (and slightly less appetizing) source of nourishment: dead stuff. John C. Moore details the "brown food chain," explaining how such unlikely delicacies as pond scum and animal feces contribute enormous amounts of energy to our ecosystems.

Type: Tutorial

Cells vs. Virus: A Battle for Health:

All living things are made of cells. In the human body, these highly efficient units are protected by layer upon layer of defense against icky invaders like the cold virus. Shannon Stiles takes a journey into the cell, introducing the microscopic arsenal of weapons and warriors that play a role in the battle for your health.

Type: Tutorial

The Secret Life of Plankton:

This short video opens up the oceans' microscopic ecosystem, revealing its beauty and complexity. Footage from the Plankton Chronicles Project is used to create a video designed to ignite wonder and curiosity about this hidden world that underpins our own food chain.

Type: Tutorial

The Chemical Structure of DNA:


This tutorial will help the learners with their understanding of chemical structure of DNA.

Type: Tutorial

Interactive Carbon Lab:

This lab simulation will allow you to explore how carbon circulates through the environment. Through data collection and analysis, you will experiment with the impact that humans are having on the cycling of carbon and make data based predictions on how these impacts may change environmental outcomes to the year 2100.

Type: Tutorial

Newt Limb Regeneration:

This animation describes how newts and salamanders regenerate functional limbs following amputation. Following injury, undifferentiated cells from surrounding tissues differentiate to produce the lost tissues of the limb to restore it to a functional condition.

Type: Tutorial

Our Solar System:


This tutorial will help the learners to understand the solar system and will learn how it was discovered from the historical astronomy perspective.

Type: Tutorial

Forces:

This tutorial provides the learners with detailed information about forces. Topics covered include Newton's Laws, friction, gravity, balanced and unbalanced forces, vectors, weight, motion and momentum.

Type: Tutorial

Erosion and Deposition:

This tutorial for student audiences covers information about erosion and deposition including the factors related to these conditions. The tutorial also briefly covers the Geologic cycle.

Type: Tutorial

Characteristics of Waves:

This tutorial contains information about the characteristics of longitudinal, transverse, and surface waves. This tutorial will also provide information about the amplitude, frequency, wavelength, speed, refraction, reflection, diffraction, and constructive and destructive interference of the waves.

Type: Tutorial

Krebs Cycle:

The Krebs cycle is the central metabolic pathway in all aerobic organisms. This tutorial will help the learners understand the Krebs cycle.

Type: Tutorial

Sound:

This tutorial provides information about the sound and how it travels. It also includes information on the anatomy and physiology of the human ear for the learners to understand how sound passes through the ear.

Type: Tutorial

Cell Anatomy:

This tutorial will help the learners to learn about the anatomy of the cell. As the learners move the cursor over each cell organelle, they are shown information about that organelle's structure and function.

Type: Tutorial

Prokaryotes, Eukaryotes, & Viruses Tutorial:

This a mostly text resource that provides accurate, straight-forward descriptions of prokaryotes, eukaryotes, and viruses. It could be a great tool to help students compare and contrast organisms with each other and viruses, or a good review passage.

Type: Tutorial

Refraction of Light:

This resource explores the electromagnetic spectrum and waves by allowing the learner to observe the refraction of light as it passes from one medium to another, study the relation between refraction of light and the refractive index of the medium, select from a list of materials with different refractive indicecs, and change the light beam from white to monochromatic and observe the difference.

Type: Tutorial

Solar Cell Operation:

This resource explains how a solar cell converts light energy into electrical energy. The user will also learn about the different components of the solar cell and observe the relationship between photon intensity and the amount of electrical energy produced.

Type: Tutorial

Basic Electromagnetic Wave Properties:

  • Explore the relationship between wavelength, frequency, amplitude and energy of an electromagnetic wave
  • Compare the characteristics of waves of different wavelengths

Type: Tutorial

Meiosis Tutorial:

This online tutorial is designed to help students understand the events that occur in process of meiosis.

Type: Tutorial

Video/Audio/Animations

Will an Ice Cube Melt Faster in Freshwater or Saltwater?:

With an often unexpected outcome from a simple experiment, students can discover the factors that cause and influence thermohaline circulation in our oceans. In two 45-minute class periods, students complete activities where they observe the melting of ice cubes in saltwater and freshwater, using basic materials: clear plastic cups, ice cubes, water, salt, food coloring, and thermometers. There are no prerequisites for this lesson but it is helpful if students are familiar with the concepts of density and buoyancy as well as the salinity of seawater. It is also helpful if students understand that dissolving salt in water will lower the freezing point of water. There are additional follow up investigations that help students appreciate and understand the importance of the ocean's influence on Earth's climate.

Type: Video/Audio/Animation

Marine fossils in the Arctic landscape:

In this video, research is presented describing scientific studies of marine fossils found in Arctic regions.

Type: Video/Audio/Animation

Movement Through a Plant:

The cohesion-tension theory describes how fluids move up the xylem to the leaves of a tree. With this tutorial learners will understand how water moves through a plant. Absorption and transpiration work together with cohesion and tension to move fluids from the soil, through the roots, and up through the tops of the tree.

Type: Video/Audio/Animation

Meiosis vs. Mitosis : How cells divide.:

This is a computer animation side by side of meiosis and mitosis comparing the phases as they occur slowly.

Type: Video/Audio/Animation

Plate Tectonics:

This short informational text, diagrams, a video, and guided questions from the CK-12 Foundation discusses plate motions and the role of convection.

Type: Video/Audio/Animation

Inquiry and Ocean Exploration:

Ocean explorer Robert Ballard gives a TED Talk relating to the mysteries of the ocean, and the importance of its continued exploration.

Type: Video/Audio/Animation

Photosynthesis:

  • Observe the photosynthesis mechanism in the plant
  • Learn about the main chemical reactions that takes place during photosynthesis
  • Learn how solar energy is converted into chemical energy

Type: Video/Audio/Animation

Lab: Mendelian Inheritance:

  • Provides a historical background about Gregor Mendel, the father of Genetics
  • Lists the rules of inheritance
  • Contains an interactive activity for making a pedigree

Type: Video/Audio/Animation

What is a Planet?:

This video provides a historical background about the definition of a planet and how different objects discovered in space were classified as planets or fir into a different category

Type: Video/Audio/Animation

Element Math Game:

Students determine the number of protons, electrons, neutrons, and nucleons for different atoms

Type: Video/Audio/Animation

Science Crossword Puzzles:

A collection of crossword puzzles that test the knowledge of students about some of the terms, processes, and classifications covered in science topics

Type: Video/Audio/Animation

Shapes of Molecules:

  • Differentiate between electron pair and molecular geometry
  • Learn how to name electron pair and molecular geometries for molecules with up to six electron groups around the central atom
  • Illustrate how electron pair repulsion affects bond angles

Type: Video/Audio/Animation

Science of the Olympic Winter Games - Aerial Physics:

A 4-minute video in which an Olympic freestyle skier and a physicist discuss the physics behind freestyle skiing.

Type: Video/Audio/Animation

Evolving Ideas: Isn't evolution just a theory?:

This video examines the vocabulary essential for understanding the nature of science and evolution and illustrates how evolution is a powerful, well-supported scientific explanation for the relatedness of all life. A clear definition and description of scientific theory is given.

Type: Video/Audio/Animation

Photosynthesis:

This video provides an overview of photosynthesis.

Type: Video/Audio/Animation

Photosynthesis: Light Reactions and Photophosphorylation:

This video gives more detail on the light reaction and photophosphorylation that occur in photosynthesis.

Photosynthesis: Light reactions and photophosphorylation: More detail on the light reactions and photophorylation

Type: Video/Audio/Animation

Citizen Science:

In this National Science Foundation video and reading selection lab ecologist Janis Dickinson explains how she depends on citizen scientists to help her track the effects of disease, land-use change and environmental contaminants on the nesting success of birds.

Type: Video/Audio/Animation

Photosynthesis animation and other cell processes in animation:

This site has fantastic short Flash animations of intricate cell processes, including photosynthesis and the electron transport chain.

Type: Video/Audio/Animation

Pocket Mouse Evolution:

This simulation shows the spread of a favorable mutation through a population of pocket mice. Even a small selective advantage can lead to a rapid evolution of the population.

Type: Video/Audio/Animation

Virtual Manipulatives

Genetics:

This tutorial explores the work of Gregor Mendel and his foundational genetics experiments with pea plants. It provides practice opportunities to check your understanding of inheritance patterns including single gene recessive traits and sex linked traits. The tutorial also covers more complex patterns of inheritance such those resulting from multiple alleles. Note: This resource is part of a larger collection of information regarding Genetics. Users may view information before and after the specific genetics components highlighted here.

Type: Virtual Manipulative

Newton's three laws of motion:

This website has a short biography about Sir Isaac Newton. It also reviews his three laws of motion with examples, and ends with a short quiz.

Type: Virtual Manipulative

Collision lab:

Learn more about collisions with the use of a virtual air hockey table. Investigate simple and complex collisions in one and two dimensions.Experiment with the number of discs, masses and initial conditions. Vary the elasticity and see how the total momentum and kinetic energy changes during collisions.

Some of the sample learning goals can be:

  • Draw "Before and After" pictures of collisions.
  • Construct momentum vector representations of "Before and After" collisions.
  • Apply law of conservation of momentum to solve problems with collisions.
  • Explain why energy is not conserved and varies in some collisions.
  • Determine the change in mechanical energy in collisions of varying "elasticity".
  • What does "elasticity" mean?

Type: Virtual Manipulative

Build an Atom:

Build an atom out of protons, neutrons, and electrons, and see how the element, charge, and mass change. Then play a game to test your ideas!

Type: Virtual Manipulative

Periodic Table:

This unique periodic table presents the elements in an interesting visual display. Select an element to find an image of the element, a description, history, and even an animation. Other chemical data is linked as a PDF file (requires Acrobat Reader).

Type: Virtual Manipulative

Electron Configurations:


The electron configuration of an atom is the representation of the arrangement of electrons that are distributed among the orbital shells and subshells. The simulated activity will help the learners practice the arrangement of the electrons. The learners will be required to follow rules in order to correctly divide the electrons in the orbitals based on the valency of the atom.

Type: Virtual Manipulative

Create Molecular Shape:


This simulation will provide the learners with a chance to increase their understanding of a molecular shape. The learners will be required to follow a "Lewis dot structure" which involves two basic principles:

  1. The shapes of the molecule is determined by the repulsion between electron pairs in the outer shell of the central atom. Both bond pairs and lone pairs must be considered.
  2. Lone pairs repel more than bond pairs.

Type: Virtual Manipulative

Models of the Hydrogen Atom Simulation:

How did scientists figure out the structure of atoms without looking at them? Try out different models by shooting light at the atom. Check how the prediction of the model matches the experimental results.

Type: Virtual Manipulative

Split Brain Experiments:

The split brain experiments revealed that the right and the left hemisphere in the brain are good at different things. For instance, the right hemisphere is good at space perception tasks and music while the left is good at verbal and analytic tasks. This game guides students through some examples of the split-brain phenomenon and how the differences are understood.

Type: Virtual Manipulative

Illustrating the process of diffusion :


This virtual manipulative will help the students to understand that osmosis is the movement of water molecules from an area of high concentration across a semipermeable membrane to an area of low concentration. This illustration of the diffusion process will help the students to understand the concept of osmotic pressure which is created by the movement of the water based on their concentration gradient and thus resulting in the difference of the solute concentration.

Type: Virtual Manipulative

Rutherford Scattering:

This virtual manipulative will help you investigate how Rutherford figured out the structure of the atom without being able to see it. This simulation will allow the you to explore the famous experiment in which Rutherford disproved the Plum Pudding model of the atom by observing alpha particles bouncing off atoms and determining that they must have a small core.
Further explorations of the tutorial could include:

  • Describe the qualitative difference between scattering off positively charged nuclei and electrically neutral plum pudding atoms.
  • For a charged nucleus, describe qualitatively how angle of deflection depends on: energy of incoming particle, impact parameters, and charge of target.

Type: Virtual Manipulative

Balancing Chemical Equations:

This activity will allow you to practice balancing a chemical equation. You will have to make sure you are following the law of conservation of mass and recognize what can change to balance an equation.
You can:

  • Balance a chemical equation.
  • Recognize that the number of atoms of each element is conserved in a chemical reaction.
  • Describe the difference between coefficients and subscripts in a chemical equation.
  • Translate from symbolic to molecular representation.

Type: Virtual Manipulative

Understanding Polarity:

Understanding molecular polarity by changing the electron-negativity of atoms in a molecule to see how it affects polarity. See how the molecule behaves in an electric field. Change the bond angle to see how shape affects polarity. See how it works for real molecules in 3D.

Some learning goals:
•predict bond polarity using electron-negativity values
•indicate polarity with a polar arrow or partial charges
•rank bonds in order of polarity
•predict molecular polarity using bond polarity and molecular shape

Type: Virtual Manipulative

Gas Properties:


Students will pump gas molecules to a box and see what happens as they change the volume, add or remove heat, change gravity, and more. Measure the temperature and pressure, and discover how the properties of the gas vary in relation to each other.

  • Students can predict how changing a variable among pressure, volume, temperature and number influences other gas properties.
  • Students can predict how changing temperature will affect the speed of molecules.
  • Students can rank the speed of molecules in thermal equilibrium based on the relative masses of molecules.

Type: Virtual Manipulative

Under Pressure:

Explore pressure under and above water. See how pressure changes as one change fluids, gravity, container shapes, and volume.
With this simulation you can:

  • Investigate how pressure changes in air and water.
  • Discover how to change pressure.
  • Predict pressure in a variety of situations.

Type: Virtual Manipulative

Ramp: Forces and Motion:

This simulation allows you to explore forces and motion as you push household objects up and down a ramp. Observe how the angle of inclination affects the parallel forces. Graphical representation of forces, energy and work makes it easier to understand the concept.

Some of the learning goals can be:

  • Predict, qualitatively, how an external force will affect the speed and direction of an object's motion.
  • Explain the effects with the help of a free body diagram
  • Use free body diagrams to draw position, velocity, acceleration and force graphs and vice versa.
  • Explain how the graphs relate to one another.
  • Given a scenario or a graph, sketch all four graphs.

Type: Virtual Manipulative

States of Matter:

Watch different types of molecules form a solid, liquid, or gas. Add or remove heat and watch the phase change. Change the temperature or volume of a container and see a pressure-temperature diagram respond in real time.

Type: Virtual Manipulative

Molecular Expressions: Introduction to microscopy:

This site provides an introduction to microscopy and microscopes including history, images, and interactives.

Type: Virtual Manipulative

Membrane Channel Simulations:

This interactive cell membrane simulation allows students to see how different types of channels allow particles to move through the membrane.

Sample learning goals:

  • Predict when particles will move through the membrane and when they will not.
  • Identify which particle type will diffuse depending on which type of channels are present.
  • Predict the rate of diffusion based on the number and type of channels present.

Type: Virtual Manipulative

Parent Resources

Vetted resources caregivers can use to help students learn the concepts and skills in this course.
Integrate Standards for Mathematical Practice (MP) as applicable.
  • MAFS.K12.MP.1.1 Make sense of problems and persevere in solving them.
  • MAFS.K12.MP.2.1 Reason abstractly and quantitatively.
  • MAFS.K12.MP.3.1 Construct viable arguments and critique the reasoning of others.
  • MAFS.K12.MP.4.1 Model with mathematics.
  • MAFS.K12.MP.5.1 Use appropriate tools strategically.
  • MAFS.K12.MP.6.1 Attend to precision.
  • MAFS.K12.MP.7.1 Look for and make use of structure.
  • MAFS.K12.MP.8.1 Look for and express regularity in repeated reasoning.