Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation
Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation
Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation BACK TO TRIAL EXHIBTS
Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation



or
Search Language
Browse
Medical Illustrations
Medical Exhibits
Most Recent Uploads
Body Systems/Regions
Anatomy & Physiology
Cells & Tissues
Abdomen
Back and Spine
Foot and Ankle
Hand and Wrist
Head and Neck
Hip
Knee
Shoulder
Thorax
Account
Administrator Login
Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation
 
This animation may only be used in support of a single legal proceeding and for no other purpose. Read our License Agreement for details. To license this animation for other purposes, click here.

If animation does not play, download and install the latest free Flash Player plugin.
More Like ThisAdd To Lightbox NSV16029 Enlarge
Need Additional Information?

Order by phone: 800.591.1123 or By email: jmills@trialexhibitsinc.com
Item #NSV16029Source #1047

Biology: Chemistry in Biology: 06: Ionic vs. Covalent Bonds - Medical Animation
MEDICAL ANIMATION TRANSCRIPT: In this video, we will compare ionic and covalent bonds. In order to understand ionic bonds, we need to talk about ions first. Atoms are electrically neutral because they have equal numbers of both positively charged protons and negatively charged electrons. However, an atom can become a charged particle called an ion if it gains or loses electrons. If an atom gains electrons, it acquires more negative charge. As a result, it becomes a negatively charged ion. Conversely, if an atom loses electrons, it loses some of its negative charge and becomes a positively charged ion. The only way to get a positively charged ion is to lose negatively charged electrons. Remember, you can't just add a proton to make a positive ion because changing the number of protons would change it into a different element. Now, let's talk about ionic bonds. Notice that this term contains the word ion. That's because ionic bonds create ions out of electrically neutral atoms by the transfer of one or more valence electrons from one atom to another. Further, electrically neutral atoms of elements whose outer shell is less than half filled with valence electrons tend to donate electrons, while atoms whose outer shell is more than half filled tend to attract electrons. For example, sodium and chlorine atoms are electrically neutral. Chlorine, which only needs one electron to fill its outer shell, strongly attracts sodium's single valence electron. So, these elements react to form a chemical bond, creating sodium chloride. Sodium chloride, otherwise known as table salt, is an example of an ionically bonded compound. This is because the electrically neutral sodium atom became a positively charged ion by losing its valence electron. And chlorine became a negatively charged ion by gaining this electron from sodium. So, how do covalent bonds occur? The simplest substance that contains a covalent bond is a molecule of hydrogen gas also known as H2. A hydrogen atom has only one electron in its outer shell, which for this atom is also the shell nearest the nucleus. This shell can hold a maximum of two electrons. So, atoms of hydrogen tend to pair up and share their electrons so that both atoms have their outer shell filled. As you can see, covalent bonds occur when atoms share pairs of electrons. In this molecule, the hydrogen atoms form a single covalent bond. Another example of a covalently bonded molecule is carbon dioxide, or CO2. From its chemical formula, you know that carbon dioxide contains one carbon atom and two oxygen atoms. Carbon has four valence electrons, and both oxygen atoms have six valence electrons. But all three atoms would need eight electrons to fill their outer shells. So, each oxygen atom shares a pair of electrons with the pair of electrons in carbon. This results in two double covalent bonds where two pairs of electrons are shared between each atom. To summarize, the two main types of chemical bonds are ionic bonds and covalent bonds. In ionic bonds, one or more electrons are transferred from one atom to another. In covalent bonds, one or more pairs of electrons are shared between atoms. [music]

YOU MAY ALSO WANT TO REVIEW THESE ITEMS:
The Middle Ear
The Middle Ear - si55550604
Medical Illustration
Add to my lightbox
Find More Like This
C5-6 Disc Herniation with Radiculopathy
C5-6 Disc Herniation with Radiculopathy - exh43096
Medical Exhibit
Add to my lightbox
Find More Like This
Right Ankle Fractures with Surgical Fixation
Right Ankle Fractures with Surgical Fixation - exh51652
Medical Exhibit
Add to my lightbox
Find More Like This
Left Hip Fracture
Left Hip Fracture - exh64221b
Medical Exhibit
Add to my lightbox
Find More Like This
Biology: Chemistry in Biology: 05: Overview of Chemical Bonds
Biology: Chemistry in Biology: 05: Overview of Chemical Bonds - NSV16020
Medical Animation
Add to my lightbox
Find More Like This
Biology: Chemistry in Biology: 08: Chemical Reactions
Biology: Chemistry in Biology: 08: Chemical Reactions - NSV16026
Medical Animation
Add to my lightbox
Find More Like This