AC and DC are two types of electric current. Learn about the differences between AC and DC current, including frequency, direction, polarity, and applications.
Create a stunning rainbow in a jar and learn about liquid density. This blog post explains the science behind this colorful experiment and provides detailed steps for conducting it with kids, either one-on-one or in a classroom setting.
Explore the fascinating world of relative time and how size and speed affect the temporal experience of organisms and objects. From the rapid growth of bacteria in warm environments to the mind-bending implications of Einsteins theory of relativity, discover how time is not a universal constant but a relative experience that varies across scales and velocities.
This post delves into Nikola Teslas groundbreaking ideas for Secure energy and wireless power transmission, exploring how these technologies could revolutionize our energy infrastructure, create a sustainable future, and bolster national security.
Embark on a journey through the captivating world of gravity, exploring its classical interpretations, potential connections to electromagnetism and quantum mechanics, and the cutting-edge theories that may revolutionize our understanding of this fundamental force.
This post explores an innovative approach to building a quantum computer using tuning forks and acoustic frequencies. By leveraging the quantum properties of sound waves, we propose a novel method for creating and manipulating qubits, potentially opening new avenues for quantum computing research.
This blog post explores the intriguing concept of using a vacuum balloon to lift payloads to space. By examining the physics behind this idea, including buoyancy, atmospheric pressure, and material properties, we delve into the challenges and potential of this innovative approach to space exploration.
This post explores the fascinating world of wireless power transmission and its potential to revolutionize the way we power our devices and create captivating lighting shows. We delve into the math and physics behind resonant inductive coupling and provide a guide for building your own Tesla coil-based wireless power devices.
Create your own lava lamp and learn about liquid density and immiscibility. This blog post explains the science behind a homemade lava lamp and provides detailed steps for conducting this experiment with kids, either one-on-one or in a classroom setting.
College Physics 1 is a foundational course that introduces students to the basic concepts of physics, including mechanics, thermodynamics, electromagnetism, and waves.
Discover the fascinating world of non-Newtonian fluids with Oobleck! This blog post explains the science behind Oobleck and provides detailed steps for conducting this fun experiment with kids, either one-on-one or in a classroom setting.
Explore the intricacies of time and the need for new vocabulary to distinguish between the societal construct of time and the fundamental dimension itself. Discover the proposed terms "chronos" for the flow of time and "kairos" for the measure of time, as we delve into the technical and philosophical aspects of this essential concept.
Learn about static electricity with this fun experiment that makes tissue paper ghosts dance. This blog post explains the science behind static electricity and provides detailed steps for conducting this experiment with kids, either one-on-one or in a classroom setting.