Standard #: SC.912.P.8.6


This document was generated on CPALMS - www.cpalms.org



Distinguish between bonding forces holding compounds together and other attractive forces, including hydrogen bonding and van der Waals forces.


General Information

Subject Area: Science
Grade: 912
Body of Knowledge: Physical Science
Standard: Matter -

A. A working definition of matter is that it takes up space, has mass, and has measurable properties. Matter is comprised of atomic, subatomic, and elementary particles.

B. Electrons are key to defining chemical and some physical properties, reactivity, and molecular structures. Repeating (periodic) patterns of physical and chemical properties occur among elements that define groups of elements with similar properties. The periodic table displays the repeating patterns, which are related to the atom's outermost electrons. Atoms bond with each other to form compounds.

C. In a chemical reaction, one or more reactants are transformed into one or more new products. Many factors shape the nature of products and the rates of reaction.

D. Carbon-based compounds are building-blocks of known life forms on earth and numerous useful natural and synthetic products.

Date Adopted or Revised: 02/08
Content Complexity Rating: Level 2: Basic Application of Skills & Concepts - More Information
Date of Last Rating: 05/08
Status: State Board Approved

Related Courses

Course Number1111 Course Title222
2003340: Chemistry 1 (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))
2003350: Chemistry 1 Honors (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))
2002420: Integrated Science 2 (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))
2002430: Integrated Science 2 Honors (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))
2003800: Florida's Preinternational Baccalaureate Chemistry 1 (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))
7920011: Access Chemistry 1 (Specifically in versions: 2014 - 2015, 2015 - 2018, 2018 - 2023, 2023 and beyond (current))
2002425: Integrated Science 2 for Credit Recovery (Specifically in versions: 2014 - 2015, 2015 - 2020 (course terminated))
2003345: Chemistry 1 for Credit Recovery (Specifically in versions: 2014 - 2015, 2015 - 2022, 2022 and beyond (current))


Related Access Points

Access Point Number Access Point Title
SC.912.P.8.In.5 Identify that compounds are made of two or more elements.
SC.912.P.8.Su.5 Recognize examples of common compounds, such as water and salt.
SC.912.P.8.Pa.5 Match common compounds to their names or communication symbols.


Related Resources

Lesson Plans

Name Description
Ionic Bonding Mates

This activity addresses the part of the standard that focuses on only one type of bonding, ionic bonding. In this engaging activity, students will find several bonding mates. Students will use their knowledge of ions to practice writing formulas for ionic compounds. Students will collaborate with their peers as they look to make bonds. Students will complete the table and discuss how to name the ionic compounds. Students will complete this activity with a greater understanding of the formation of ionic bonds.

To Friend or Not Friend The in this activity on chemical bonding, students will mimic Facebook, choosing "friends" based on their oxidation number. When the oxidation numbers of two or more elements equal zero, a stable bond has been formed. The purpose of this activity is for students to understand the rules for which elements bond to make compounds.
I-on-it (Ionic) or not?

In this physically engaging activity students will debate with their peers whether a randomly drawn statement/diagram/compound name or formula applies to ionic bonds, covalent bonds or both types of bonds. Then sort themselves throughout the room accordingly. Peer support and collaboration are encouraged while the teacher facilitates proper placement. Activity concludes with a T chart graphic organizer and a writing assignment where students personify the bond types.

A Bright Idea

Students will look for a correlation between pH and conductivity. They will also compare ionic, molecular, and solids for conductivity. The procedure provided above is a guided, step-by-step presentation. Remove steps to achieve the level of inquiry desired for your class.

Original Student Tutorial

Name Description
Why Does Water Bead Up? A Guide to Intermolecular Attractive Forces

Explore intermolecular bonding and attractive forces in this interactive tutorial.

Perspectives Video: Professional/Enthusiast

Name Description
A Moment on Dipole-Dipole Forces

Learn how molecules have the potential to be polar, but not all are.

Download the CPALMS Perspectives video student note taking guide.

Text Resource

Name Description
Demystifying Gross Stuff

This informational text resource is intended to support reading in the content area. From pimples to bad breath to passing gas, this article clears up the science behind some of the gross things our bodies do—acne, bad breath, and flatulence—in an attempt to make the gross seem a little less so.

Tutorials

Name Description
Hydrogen Bonding Force

A hydrogen bond is the electromagnetic attractive interaction between polar molecules in which hydrogen is bound to a highly electronegative atom, such as nitrogen, oxygen, or fluorine. This tutorial will help the learner understand how hydrogen bonds form between the molecules.

Water

This tutorial will help the learners to understand the molecular structure of the water molecule, its inter- and intra-molecular bonds, and the formation of hydroxide ions.

Video/Audio/Animation

Name Description
Shapes of Molecules
  • Differentiate between electron pair and molecular geometry
  • Learn how to name electron pair and molecular geometries for molecules with up to six electron groups around the central atom
  • Illustrate how electron pair repulsion affects bond angles

Virtual Manipulative

Name Description
Atomic Interactions

In this simulation, explore the interactions between various combinations of two atoms. Specific features of the simulation allows you to see either the total force acting on the atoms or the individual attractive and repulsive forces.

Options for learning:

  • Explain how attractive and repulsive forces govern the interaction between atoms.
  • Describe the effect of potential well depth on atomic interactions.
  • Describe the process of bonding between atoms in terms of energy.

WebQuest

Name Description
Intermolecular Forces: A Jigsaw Activity

This jigsaw activity is designed as a cooperative learning activity used to introduce the idea of intermolecular forces. Intermolecular forces are the types of attractive forces that occur between molecules in a solid, liquid, or gas. Each force causes different physical properties of matter. Each member of the group will become an expert on one type of force and then teach the rest of the group.

Student Resources

Original Student Tutorial

Name Description
Why Does Water Bead Up? A Guide to Intermolecular Attractive Forces:

Explore intermolecular bonding and attractive forces in this interactive tutorial.

Perspectives Video: Professional/Enthusiast

Name Description
A Moment on Dipole-Dipole Forces:

Learn how molecules have the potential to be polar, but not all are.

Download the CPALMS Perspectives video student note taking guide.

Tutorials

Name Description
Hydrogen Bonding Force:

A hydrogen bond is the electromagnetic attractive interaction between polar molecules in which hydrogen is bound to a highly electronegative atom, such as nitrogen, oxygen, or fluorine. This tutorial will help the learner understand how hydrogen bonds form between the molecules.

Water:

This tutorial will help the learners to understand the molecular structure of the water molecule, its inter- and intra-molecular bonds, and the formation of hydroxide ions.

Video/Audio/Animation

Name Description
Shapes of Molecules:
  • Differentiate between electron pair and molecular geometry
  • Learn how to name electron pair and molecular geometries for molecules with up to six electron groups around the central atom
  • Illustrate how electron pair repulsion affects bond angles

Virtual Manipulative

Name Description
Atomic Interactions:

In this simulation, explore the interactions between various combinations of two atoms. Specific features of the simulation allows you to see either the total force acting on the atoms or the individual attractive and repulsive forces.

Options for learning:

  • Explain how attractive and repulsive forces govern the interaction between atoms.
  • Describe the effect of potential well depth on atomic interactions.
  • Describe the process of bonding between atoms in terms of energy.


Parent Resources

Perspectives Video: Professional/Enthusiast

Name Description
A Moment on Dipole-Dipole Forces:

Learn how molecules have the potential to be polar, but not all are.

Download the CPALMS Perspectives video student note taking guide.

Tutorial

Name Description
Water:

This tutorial will help the learners to understand the molecular structure of the water molecule, its inter- and intra-molecular bonds, and the formation of hydroxide ions.

Video/Audio/Animation

Name Description
Shapes of Molecules:
  • Differentiate between electron pair and molecular geometry
  • Learn how to name electron pair and molecular geometries for molecules with up to six electron groups around the central atom
  • Illustrate how electron pair repulsion affects bond angles

Virtual Manipulative

Name Description
Atomic Interactions:

In this simulation, explore the interactions between various combinations of two atoms. Specific features of the simulation allows you to see either the total force acting on the atoms or the individual attractive and repulsive forces.

Options for learning:

  • Explain how attractive and repulsive forces govern the interaction between atoms.
  • Describe the effect of potential well depth on atomic interactions.
  • Describe the process of bonding between atoms in terms of energy.


Printed On:4/26/2024 1:31:47 PM
Print Page | Close this window