Hybrid Orbitals Teacher Resources
Find Hybrid Orbitals educational ideas and activities
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Understanding Hybrid Orbitals
In this hybrid orbital worksheet, high schoolers read about hybridization in molecules. They are given six molecules and they draw Lewis structures, they identify the shape of the molecules, they identify the types of orbitals present and they indicate if there are pi bonds present.
In this bonding worksheet, students fill in 8 blanks with the appropriate terms about theories of bonding, they determine if 6 statements are true or false, they match 5 terms with their meanings and they solve 1 problem related to hybrid orbitals.
Pi bonds And sp2 Hybridized Orbitals
The sigma bonds and overlapping of s or p orbitals are the focus of an informative video. Your class will find SalÕs explanations and recaps very useful. He introduces pi bonds and draws examples of the single and double bonds
sp3 Hybridized Orbitals And Sigma Bonds
This video reviews many of the concepts covered in the regular chemistry playlist. Sal tries to draw and clarify how to visualize the multiple x, y, and z orbitals. He elaborates on probability clouds and the sp3 orbital configuration of carbon.
Covalent Bonding and Molecular Structures
There are 66 objectives to be covered by upcoming chemists if they complete this two-chapter assignment. It encompasses all of the information needed to deal with covalent bonds and molecular geometry. Colorful diagrams display the molecular orbital structures. Charts are used to compare them. Practice problems and vocabulary definitions abound!
Review of Chemical Bonding
This is an online exercise in which chemistry learners answer a series of multiple choice questions about bonding. Topics addressed include ionic and covalent bonds, electronegativity, ions, valence electrons, resonance structure, and the octet rule. When learners submit, the correct answers get highlighted in green, and if they made errors, they are highlighted in red. This is a terrific way to study for an exam.
Sal starts this video with a short review of the 3D methane molecule structure. He continues to demonstrate possible configurations for ethane. A ball and stick model is drawn, and viewers will find the labeling of bonds useful as review. The Newman projection is presented as a way to draw molecules instead of the more common Sawhorse representation.
2000 U.S. National Chemistry Olympiad Local Section Exam
This 60-question comprehensive exam was designed to determine who would go on to compete in the 2000 US National Chemistry Olympiad. Hopefuls answer multiple choice questions regarding all chemistry topics taught in the first year general chemistry curriculum with a focus on laboratory experience. You can use this as a final exam for your chemistry class. An answer key is attached.
2000 U.S. National Chemistry Olympiad National Exam - Part I
The National Chemistry Olympiad exams are comprehensive tests covering an entire year of chemistry concepts. You can use them as practice for competing in the challenge, or simply as a review, or as an actual final exam for your general chemistry class. This particular part of the three-part exam consists of 60 multiple choice questions. Read through it before assigning to make sure every question is relevant to your curriculum. As a bonus, you will find an answer key attached.
Worksheet 7 - A Practice Quiz 3
Every sort of chemical bond is touched upon during this assignment. Chemistry whizzes identify what type of bond is formed by analyzing chemical formulas or Lewis structure diagrams. Multiple choice questions also ask learners about molecular geometry for different compounds. This is best used, as suggested, for a practice quiz.
In this chemistry worksheet, students demonstrate orbitals hybridization of given molecules to complete 35 short answer questions.
2004 U.S. National Chemistry Olympiad Exam Part II
In this National Chemistry Olympiad test, junior chemists answer eight problem solving questions on a variety of topics. These include calculating molarity of solutions, determining rates of reactions, calculating decay and discussing topics such as electrolysis.
In this hybridization activity, students fill in the hybridization of chemical compounds given their geometry, shape, and bonds. Students draw the Lewis symbol for elements and determine the number of bonds and lone pairs. This activity has 5 graphic organizers and 6 short answer questions.
Confirming and visualizing Lewis Dot Structures
Students construct a Lewis Dot structure and in a lab activity build the structure and calculate where atoms are located.
Hybridization and Valence Bond Theory
In this chemistry instructional activity, students use knowledge of valance bonds in order to answer the in depth application of science problems.
Review Questions-Molecular Geometry and VSEPR Theory
In this molecular geometry and VSEPR activity, students find bond angles, hybridization, determine polarity and draw orbital box diagrams of molecules. They determine molecular geometry and bond angles of given molecules and determine net charges of species.