FuseSchool
What Are Covalent Bonds
Learn the basics about covalent bonds, when learning about properties of matter. When similar atoms react, like non-metals combining with other non-metals, they share electrons. This is covalent bonding. Non-metals have shells of...
Professor Dave Explains
Nuclide Symbols: Atomic Number, Mass Number, Ions, and Isotopes
How do we represent an atom, with all of its protons, neutrons, and electrons? With nuclide symbols, of course! These show the type of element, as well as the atomic number, mass number, and electrical charge of an atom. That's all you...
FuseSchool
How Does Water Bond - Covalent Bonds
Learn the basics about the covalent bonding of water, when learning about covalent bonding within properties of matter. Water is made from one oxygen atom and two hydrogens. The oxygen has 6 electrons in its outer shell, but it really...
FuseSchool
What Are Periods & Groups In The Periodic Table?
What's the difference between periods and groups in the Periodic Table and why are the elements structured this way. Find out in this video from the Properties of Matter chapter of the Virtual School GCSE / K12 Chemistry.
Visual Learning Systems
Thompson's Model of Atoms
In this video, we explore the groundbreaking discoveries of JJ Thompson and his plum pudding model of the atom. Thompson's experiments with electric currents and magnetic charges led him to hypothesize the existence of negatively charged...
FuseSchool
PHYSICS - Matter - Atom Structure
I this video you will see how we can use the periodic table to tell us more about the differences between elements, including the different numbers of protons, neutrons and electrons they possess.
DoodleScience
Atomic Structure _ GCSE Physics
Doodle Science teaches you high school physics in a less boring way in almost no time!
Curated Video
Creating Zero Pairs with Integer Chips
In this lesson, students will learn how to use integer chips to create zero pairs. They will understand that positive and negative numbers can be represented by different colored chips, and that when opposite quantities combine, they...
Visual Learning Systems
Forming Bonds: Atoms and Bonding
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...
Visual Learning Systems
The Structure and Behavior of Electrons in Atoms
This video explains the characteristics of electrons and their role in atoms. The concept of the electron cloud and energy levels is introduced, emphasizing their significance in determining an atom's interactions with other atoms. Atoms...
Visual Learning Systems
The Arrangement of Electrons and Atomic Bonding
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...
Visual Learning Systems
Introduction to Electric Charges and Atoms
In this video, we explore the concept of electrical charges and the basic structure of atoms. Through examples like static shocks and balloon experiments, we learn about protons and electrons, which possess positive and negative charges...
Science360
Solar Power - Green Revolution
In this episode of Green Revolution, learn how solar cells capture energy from the sun, and how scientists and engineers are improving this technology so you can use the power of the sun on the go. Visit the full Green Revolution...
Visual Learning Systems
Understanding Static Electricity
This video explains the concept of static electricity and how it occurs in everyday situations. It describes how charges build up in objects, such as clothes in a dryer or on a carpet, leading to clothes sticking together or experiencing...
Professor Dave Explains
The Periodic Table: Atomic Radius, Ionization Energy, and Electronegativity
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...
Bloomberg
Lucid's Liveris Discusses Future of Mobility
Andrew Liveris, former chairman and now board member of electric vehicle maker Lucid Group Inc., discusses the future of mobility and the company's strategy. Liveris, also a board member of Saudi Aramco and former chairman of Dow...
Bridgeman Arts
1950s: Animated electrons swirl and spin around the nucleus of an atom
1950s: Animated electrons swirl and spin around the nucleus of an atom.
Bridgeman Arts
1950s: Illustrated hydrogen atom
1950s: Illustrated hydrogen atom. Sign appears below hydrogen atom. Uranium rod with sign. Illustrated uranium atom. Sign appears below uranium atom. Hands unroll copper wire. Copper wire.
Bridgeman Arts
1950s: Illustration of battery with wires and text
1950s: Illustration of battery with wires and text. Animated demonstration of electrons moving along closed circuit. Illustration of copper atom.
Bridgeman Arts
1950s: Animated diagram of copper atoms and electrons
1950s: Animated diagram of copper atoms and electrons. Hands remove battery from flashlight. Steam rises from electric power station. Animated diagram of copper atoms.
Bridgeman Arts
1950s: Animated diagram of copper atoms
1950s: Animated diagram of copper atoms. Electrons move between atoms. Electrons repel other electrons and move between atoms.
Bridgeman Arts
1950s: Illustrated copper atom and electron with text
1950s: Illustrated copper atom and electron with text. Animated electron is added to copper atom and text disappears. Diagram of atoms in copper. Animated electrons move around atoms.
Bridgeman Arts
1950s: Illustrated copper atom
1950s: Illustrated copper atom. Electron is removed from atom and text appears below. Text appear beneath lone electron.
Bridgeman Arts
1950s: Illustrated atoms of copper, hydrogen and uranium with text
1950s: Illustrated atoms of copper, hydrogen and uranium with text. Animated electrons shift between atoms.