Upon viewing the Forming Bonds video series, students will be able to do the following: Understand that matter is made up of tiny particles called atoms. Explain that atoms consist of many different types of subatomic particles including...

Upon viewing the Exploring the Building Blocks of Matter video series, students will be able to do the following: Understand that the quest to better understand the building blocks of matter has transpired over the past several thousand...

In this video, the teacher explains the concept of isotopes - atoms of the same element that have different numbers of neutrons. Atoms part 10/13

In this video, the concept of the nucleus in an atom is explained, highlighting its significance as the dense core containing over 99% of the atom's mass. Additionally, the importance of the atomic number in distinguishing different...

In this video, the concept of mass number is explained, using the example of sulfur. The video also introduces the idea of isotopes, using carbon as an example, and explains how the atomic mass is calculated as a weighted average of the...

Did you know that geometry was invented by molecules? It's true! Until the first stars went supernova and littered all the elements across the cosmos, everything was simply spheres, from protons to stars. But then, under cooler planetary...

This video explains how electrons are arranged in atoms and how their arrangement affects the bonding between atoms. The video also highlights the importance of valence electrons, which are the electrons in the outermost energy level, in...

Atoms don't just appear and disappear into thin air, you silly goose. What are you, a magician? When we have a chemical equation we will have to balance it. Here's how to do it!

This video describes the basic role that atoms play in creating electrical charges, as well as the nature and creation of static electricity. Various methods of charging are discussed, emphasizing the role that insulators and conductors...

This video describes the basic role that atoms play in creating electrical charges, as well as the nature and creation of static electricity. Various methods of charging are discussed, emphasizing the role that insulators and conductors...

Why is the periodic table arranged the way it is? There are specific reasons, you know. Because of the way we organize the elements, there are special patterns that emerge. And you know how Professor Dave feels about patterns. He likes...

Nobel Prize Awarded to Scientists

This video delves into the various aspects and dimensions of lifestyle, covering a wide range of topics such as fashion, health, relationships, and self-improvement. With insights and expert advice, it offers a comprehensive...

Periodic Table Animation

Construction of the Periodic Table of elements.

animated periodic table

Carbon-carbon bond formation is extremely important in organic synthesis, and the 2010 Nobel Prize for Chemistry was awarded to Akira Suzuki (and Richard Heck and Ei-ichi Negishi) for his work on the reaction that bears his name. This...

Neon is the tenth element, and has ten protons (red) in its nucleus, along with ten neutrons (blue). Neon has ten electrons, and each of its orbitals can hold a maximum of two. Orbitals are filled from the lowest energy (nearest the...

Construction of the Periodic Table of elements.

This video is to show the organisation of protein molecule in a Loopable format

Oxygen is the eighth element, and has eight protons (red) in its nucleus, along with eight neutrons (blue). Oxygen has eight electrons, and each of its orbitals can hold a maximum of two. Orbitals are filled from the lowest energy...

periodic table

Construction of the Periodic Table of elements.

Mannose sugar molecule. Mannose is a monosaccharide sugar that forms part of some carbohydrates. It has little if any biological role, and is excreted unchanged. Atoms are colour-coded here: carbon is black, oxygen red and hydrogen grey