Presentation is loading. Please wait.

Presentation is loading. Please wait.

Gallery walk Chapter 7.

Published byLeslie Conley Modified over 5 years ago

Similar presentations

Presentation on theme: "Gallery walk Chapter 7."— Presentation transcript:

1 Gallery walk Chapter 7

2 5H2 Station 1 What number is the coefficient?
What number is the subscript? What element is the H How many H are there?

3 Station 2 Write the total number of each elements in the following examples:

4 Station 3 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

5 Station 4 Balance the equation using the notecards on the table – write the final balance equation
Now, count the number of molecules of each element present on both sides of the equation. Take the unbalanced equation and make a note of the elements present in each side of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

6 Station 5 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

7 Station 6 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

8 Station 7 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

9 Station 8 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

10 Station 9 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

11 Station 10 Balance the equation using the notecards on the table – write the final balance equation
Take the unbalanced equation and make a note of the elements present in each side of the equation. Now, count the number of molecules of each element present on both sides of the equation. Here comes the task of balancing the chemical equations. You should see that same numbers of molecules of all elements are present on the reactants side as well as the products side. The equation should follow law of conservation of mass i.e. matter is neither created nor destroyed. While balancing the equations you should only change the co-efficient of the chemical formula but not the subscripts. Changing the subscripts will change the components. Start by balancing one element at a time. Finally check if all the elements are balanced.

12 Station 11 Diatomic Atoms
Is Dr. H2O2F2Br2I2N2Cl2 in the house?? There are 7 diatomic molecular elements on the periodic table. When they are in the elemental state (all by themselves, not tied up in a compound) they must have a subscript 2 behind them. Each molecule is made of two atoms of the substance. They never exist as single atoms. They are either tied up in a compound, or tied up (chemically bonded) with each other as two packs (diatomic molecules). When balancing equations, you can never have one of these seven elements all by itself as a single atom. Doesn't happen. They can be in a compound however without the subscript two.

13 Station 12 I Never Bring Clay From Our Home upside down backward L and H Write down the saying to help remember the diatomics – then shade in the periodic table with purple

14 Station 13 Law of Conservation of Mass- mass can not be created or destroyed only changed forms.

15 Station 14 Types of reactions
Endothermic Exothermic heat is absorbed (feels cold) heat is released (feels warm) energy must be added for reaction to occur reaction occurs spontaneously Example of Endothermic Process Photosynthesis is an example of an endothermic chemical reaction. In this process, plants use the energy from the sun to convert carbon dioxide and water into glucose and oxygen. This reaction requires energy (sunlight) for every glucose that is produced: sunlight + 6CO2(g) + H2O(l) = C6H12O6(aq) + 6O2(g) Example of Exothermic Processes An example of an exothermic reaction is the mixture of sodium and chlorine to yield table salt. Na(s) + Cl2(s) = NaCl(s)

16 How many of each element are on each side of the equation to start
How many of each element are on each side of the equation to start? Is it balance? N H N H

Download ppt "Gallery walk Chapter 7."

Similar presentations

Chemical Reactions And Enzymes. A chemical reaction is a process that changes, or transforms, one set of chemicals into another. Mass and energy are conserved.

Chemical Reactions And Enzymes. A chemical reaction is a process that changes, or transforms, one set of chemicals into another. Mass and energy are conserved.
Chemical Formulas & Equations. Molecule A combination of two or more atoms bonded together.

Chemical Formulas & Equations. Molecule A combination of two or more atoms bonded together.
Chemical Formulas & Equations 8 th Grade Science 2010 H 2 O NaCl CO 2 2H 2 + O 2 = 2H 2 O.

Chemical Formulas & Equations 8 th Grade Science 2010 H 2 O NaCl CO 2 2H 2 + O 2 = 2H 2 O.
Molecules and Compounds. Compound Formed from 2 or more elements in a specific proportion When combined, new properties are created They contain 2 or.

Molecules and Compounds. Compound Formed from 2 or more elements in a specific proportion When combined, new properties are created They contain 2 or.
Energy and Reactions Breaking of bonds requires an input of energy. The formation of bonds requires a release of energy. The total energy that exists before.

Energy and Reactions Breaking of bonds requires an input of energy. The formation of bonds requires a release of energy. The total energy that exists before.
Chemisty Review. Elements are represented by 1, 2, or 3 letters. They always begin with a capitol letter, followed by lower case letters (if any). Example:

Chemisty Review. Elements are represented by 1, 2, or 3 letters. They always begin with a capitol letter, followed by lower case letters (if any). Example:
200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 200 300 400 500 100 A BCDE.

A BCDE.
Chapter 9 State Standards: 3.b; 3.f; 5.a; 5.b; 5.c 1Contreras.

Chapter 9 State Standards: 3.b; 3.f; 5.a; 5.b; 5.c 1Contreras.
Chemical Formulas & Equations 8th Grade Science 2012

Chemical Formulas & Equations 8th Grade Science 2012
Chemical Reactions and Equations CLASS NOTES. Review from last class What types of changes can occur as a result of chemical reactions? – Can you give.

Chemical Reactions and Equations CLASS NOTES. Review from last class What types of changes can occur as a result of chemical reactions? – Can you give.
Chemical Reactions.  Atoms interact in chemical reactions: Chemical reaction: produces new substances by changing the way in which atoms are arranged.

Chemical Reactions.  Atoms interact in chemical reactions: Chemical reaction: produces new substances by changing the way in which atoms are arranged.
Writing Chemical Equations

Writing Chemical Equations
Unit 9 - Chemical Reactions

Unit 9 - Chemical Reactions
Chemical Reactions Physical Science 8 th Grade. 1. What is a chemical change? a change in matter that produces one or more NEW SUBSTANCES with different.

Chemical Reactions Physical Science 8 th Grade. 1. What is a chemical change? a change in matter that produces one or more NEW SUBSTANCES with different.
Notes – Chemical Changes Chem/HChem 2013 Assign # 20 pts.

Notes – Chemical Changes Chem/HChem 2013 Assign # 20 pts.
Science Module 8 th Grade. TAKS Objective 3 – The student will demonstrate an understanding of the structures and properties of matter. Complex interactions.

Science Module 8 th Grade. TAKS Objective 3 – The student will demonstrate an understanding of the structures and properties of matter. Complex interactions.
Chemical Formulas. At the end of the day you will be able to: Identify elements in a formula Determine how many of each element are present.

Chemical Formulas. At the end of the day you will be able to: Identify elements in a formula Determine how many of each element are present.
Chemical Reactions. Learning target: I can balance chemical equations. Why learn this? This concept introduces you to the idea that matter is not created.

Chemical Reactions. Learning target: I can balance chemical equations. Why learn this? This concept introduces you to the idea that matter is not created.
Chemical Equations. Chemical Reactions - OVERVIEW change that occurs when atoms rearrange themselves Can absorb or release energy  Heat  Light  Sound.

Chemical Equations. Chemical Reactions - OVERVIEW change that occurs when atoms rearrange themselves Can absorb or release energy  Heat  Light  Sound.
Chemical Reactions: The Law of Conservation of Mass.

Chemical Reactions: The Law of Conservation of Mass.

Similar presentations

Ads by Google