1 / 11

13.3 and Pre-Lab Solids and Sulfur

13.3 and Pre-Lab Solids and Sulfur. Properties of Solids. Tightly packed particles Dense Not easy to compress Particles vibrate in motion Do not flow Most are crystalline. Crystalline Structures. A crystal is a 3D pattern that has a repeating pattern of orderly particles.

deacon-barlow
Télécharger la présentation

13.3 and Pre-Lab Solids and Sulfur

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 13.3 and Pre-LabSolids and Sulfur

  2. Properties of Solids • Tightly packed particles • Dense • Not easy to compress • Particles vibrate in motion • Do not flow • Most are crystalline

  3. Crystalline Structures • A crystal is a 3D pattern that has a repeating pattern of orderly particles. • There are several different types of crystal systems that are classified based on bonding, length of each face, and angle between each face. • Figure: 13.11 • The overall shape of the crystal is affected by the geometric shape of the particles.

  4. The smallest group of particles that retain the geometric shape of the crystal is called the unit cell. Several unit cells placed on top of one another creates a crystal. Unit Cells

  5. Types of Unit Cells Body Centered Cell (atom at each corner and one in center, body) Simple Cubic Cell (atom at each corner) ATOMS Face Centered Cell (atom at each corner and at each face)

  6. Allotropes • Elements which exist in two or more different forms in the same physical state. • Differ in physical properties and may also differ in chemical activity.

  7. Oxygen Oxygen gas, O2 Ozone, O3 Sulfur We will do this in lab Examples of Allotropes

  8. Carbon • Diamond: high density and hard • Graphite: low density black, soft, and slippery • Buckminsterfullerene (aka buckeyball): 60 carbon rings in hexagon/pentagon patterns. Looks like a soccer ball. Rigid and strong. • http://www.ktf-split.hr/glossary/en_o.php?def=allotrope

  9. Non-Crystalline Forms • Something that is amorphous • Amorphous: lacks structure and has irregular angles • Examples • rubber, plastics, asphalt, glass

  10. Pre-Lab Key Terms • Sulfur can be considered allotropic because it has several forms. • Sulfur is also polymorphic. • Polymorphic: a single substance that can have more than one crystal form. • Isomorphic: different substances that have the same crystal form.

  11. Orthorhombic (rhombic)- this form of crystal is very stable and will form S8 rings when heated. Monoclinic-this form is less stable and is formed when sulfur is melted and then cooled slowly. Amorphous (plastic)- this form is very unstable and is formed when boiling sulfur is added to water. This causes the rings of the crystal to break and all structure is lost. 3 Types of Sulfur in Lab

More Related