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Library of 3383 accessible STEM media resources.
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Many viewers enjoy three-dimensional technology, but a few feel the need to look away. A number of neurological and visual conditions can cause someone to experience nausea. It's a type of motion sickness without the motion. Fred Bonato of St. Peter's College in Jersey City has spent years steadily tracking what he calls "cyber sickness.”
(Source: DCMP)
Students will explore the principles of motion, speed, velocity, and acceleration. They will learn how to calculate speed and acceleration through the use of numerous examples that illustrate the principles of motion. Other topics covered include frame of reference, momentum, and conservation of momentum.
The Standard Deviants explore Kepler's laws of planetary motion. Next, they discuss simple harmonic motion pendulums. Other topics covered include cycle, amplitude, wavelength, frequency, spring constants, and the restoring force. Part of the "Standard Deviants School: Physics" series.
Presents three key physics concepts about force and motion: constant speed, acceleration, and gravity and falling. Each concept is illustrated with a variety of experiments and computer animation to illuminate what is happening both visibly and at the molecular level.
Part of a series that features a wide variety of video footage, photographs, diagrams and colorful, animated graphics and labels. Begins with a simple definition of the term and concludes with a critical thinking question. For this particular video, students will focus on the term motion. Part of the Science Video Vocab Series.
Things really get spinning with a discussion of accelerated circular motion. The Standard Deviants explain rotational motion, which is the rotation of objects like planets. Along the way, students learn about radical radians and linear momentum. Part of the "Standard Deviants School: Physics" series.
Provides an overview of how Newton's three laws of motion can be used to explain and predict the motion of everyday objects. The effect of friction, including air resistance, is highlighted, and the concept of inertia is illustrated with classic demonstrations. Features questions for class discussion, as well as the remarkable Rocketman, who provides a dramatic example of the third law in action.
An early exploration (2015) into how to make a sim accessible has taken place for Forces and Motion Basics. It has working keyboard navigation and auditory descriptions for the 'Net Force' screen when the screen reader is in 'Forms' mode. We are working on updating the content so that it can be read by the screen reader in any mode. Notes for the main interaction: Press 'Enter' or 'Spacebar' to enter a group of pullers. Once in the group, use 'Arrow' keys to choose which puller you wish to select. Press 'Enter' or 'Spacebar' to select puller and move to knot selection. Use 'Arrow' keys to choose between different knots. Press 'Escape' to leave a group of pullers or knots, 'Tab' to leave group and go to next element. This prototype has been tested with NVDA and Firefox.
(Source: PhET Interactive Simulations)
Part of a series that features a wide variety of video footage, photographs, diagrams and colorful, animated graphics and labels. Begins with a simple definition of the term and concludes with a critical thinking question. For this particular video, students will focus on the term translational motion. Part of the Science Video Vocab Series.
Students will learn about force and the effects of force on objects. Visual examples and real-life demonstrations promote an understanding of how things move. Important terminology includes force, work, friction, gravity, mass, and acceleration.
Hummingbirds live only in the Americas, and their diversity numbers 350 species. They are part-time carnivores that must catch animals that compromise ¼ of their diet. Demonstrates how they can hover, fly backward, and move their wings in figure eights at 200 wind-beats per second in slow and stop motion images. Also reveals that every night their bodies go in torpor (mini-hibernation) so they don't starve while they can't consume nectar. Also sees how they co-evolve with flowers through pollinating mutualisms, and acquired their aerial skills by evolving from ancestors of swifts, their nearest relatives.
Without plants, perhaps the most important producers in the food chain, the world as we know it would not exist. Like all livings things, plants go through a series of life processes, the most important being reproduction and adaptation. How can plants grow everywhere? How does a species spread itself over great distances and into a variety of habitats? Investigates the characteristics and diversity of the ingenious solutions flowering plants, including fruit plants, have devised for propagation.
Wearing a mask is a cheap and easy way to help stop the spread of airborne infections like COVID-19. Here's some slow-motion Schlieren imaging experiments to demonstrate why masks work. Part of the "It's Okay to Be Smart" series. Please note this title contains mature themes and references.
The Standard Deviants discuss the three laws of Sir Isaac Newton. This branch of study is also known as Newtonian physics, and it applies to everyday conditions of speed, time, and gravitational pull. Other topics covered include forces in equilibrium, mass as opposed to weight, inertia, static and kinetic friction, and tension. Part of the "Standard Deviants School: Physics" series.
The Standard Deviants discuss two-dimensional kinematics and motion in a plane. They also look at the role gravity plays in projectile motion and highlight some important equations for figuring out projectile motion and uniform circular motion. Part of the "Standard Deviants School: Physics" series.
From cyclists to race cars, the motion of an object is determined by the sum of the forces acting on it. An aeronautics engineer works with Newton's three laws of motion to test the best bicycle posture and helmet in a wind tunnel.
A ball flying through the air, a deer walking in the woods, and a flowing river - these are all examples of moving objects. Students explore the characteristics of things in motion, and special attention is given to the forces that initiate and change their movement. Concepts and terminology discussed include: motion, push, pull, force, direction, and speed.
Aeronautics is the science of flight as well as the theory and practice of aircraft navigation. Any machine that flies through the air falls into the field of aeronautics. This includes helicopters, airplanes, as well as space vehicles such as the SpaceX Dragon and the retired NASA space shuttles. Aerodynamics is a branch of physical science which deals with the motion of air and the way that it interacts with objects in motion.
Showing collections 1 to 2 of 2
A collection of simulations from PhET.
A collection containing 15 resources, curated by Charles LaPierre
Resources to teach younger students about animals
A collection containing 58 resources, curated by DIAGRAM Center
