Presentation is loading. Please wait.

Presentation is loading. Please wait.

Converting Skeletal Structures to Condensed Formulas, and Vice Versa.

Published byThomasine Lucas Modified over 8 years ago

Similar presentations

Presentation on theme: "Converting Skeletal Structures to Condensed Formulas, and Vice Versa."— Presentation transcript:

1 Converting Skeletal Structures to Condensed Formulas, and Vice Versa

2 Skeletal Structures - Rules In order to understand to convert skeletal structures to condensed formulas and vice versa, you need to understand those rules discussed in “Drawing Skeletal (ZigZag) Structures” or else none of it makes any sense so make sure you have those rules nailed down first!

3 Perhaps you need a middle man? This can be a hard transition – going from all letters to all lines (or the other way around). You may want to consider drawing the Line- Bond Structures as intermediates, until you are fully comfortable.

4 Make that transition Take the following condensed formula and convert it to a Line-Bond Structure: (CH 3 ) 2 CHCH 2 CH 3

5 Making the transition… Adding in all of those lines gets you to: Now get rid of the letters… Off with those H’s and C’s!

6 Made the transition!

7 Can turn that process around… Put back the letters and lines to make a Line- Bond Structure for this:

8 Transitioning again… Adding in the letters… Then taking out the lines…

9 Transitioning again… Now take out the rest of those lines…

10 Finish it off… Now remove those C-C lines: Use those parentheses! You can probably even condense that C=C: CH 3 CH 2 CH(OH)CH 2 CHCH 2

11 You don’t HAVE to draw Line-Bond Structures… Once you get comfortable with skeletal structures, you can go straight to condensed formulas. The end of lines are CH 3, at the intersection of two lines is a CH 2, at that of three lines is CH and at that of four lines is a C… Consider:

12 Evaluate your intersections Based on ends and intersections, the condensed formula should be: CH 3 CH 2 CH 2 CH 2 CH 3

13 Try that again… Consider how many ends and intersections are involved: You have branches this time. Watch your parentheses!

14 Evaluate and Condense Three single carbon ends on the left all attached to the same carbon. Intersections of 4 (C), 2 (CH 2 ), 3 (CH) (with a Cl) lines And one end carbon on the right: (CH 3 ) 3 CCH 2 CH(Cl)CH 3

15 Try that yet again… Consider how many ends and intersections are involved: You have branches again. Watch your parentheses!

16 Evaluate and Condense This one is interesting… There’s an OH on an end and a CH 3 branch (facing south) and a 2 carbon branch (CH 2 CH 3 ) facing north… Notice though that the right side is ALSO a 2 carbon group (CH 2 CH 3 )… Can you see it?

17 Evaluate and Condense So C1 is a two line intersection, C2 is a three line intersection, as is C3. Now track this one, from left to right: HOCH 2 CH(CH 3 )CH(CH 2 CH 3 ) 2

18 Now, from the other direction How do you turn a condensed formula into a skeletal structure? Do you just start zig- zagging? Usually it helps to identify the backbone of the condensed formula, so you know how many zig-zags to start with and then Numbering the atoms to help correlate them helps, a lot…

19 Skeletal Structure from Condensed Consider this example, keeping it simple to start: CH 3 CH 2 CH 2 CH 3 Find the basic carbon chain (kind of obvious on this one, I hope). Highlighting those carbons, or numbering them helps keep track of what is where. CH 3 CH 2 CH 2 CH 3

20 Skeletal Structure from Condensed There are four carbons in the back bone: CH 3 CH 2 CH 2 CH 3 So you need four carbons in a zig-zag: Conveniently, you have nothing else to add!

21 Skeletal Structure from Condensed Let’s step it up now… Adding parentheses… (CH 3 ) 2 CHCH 2 CH(Br)CH 2 CH 2 CH 3 What is the skeletal structure? Identify the backbone carbons. Stay away from the parenthesis. Once you have found the backbone, you can add the bits and pieces…

22 Skeletal Structure from Condensed Find each carbon in the main chain, not part of the branches. There are six carbons, outside of the pieces. Draw a six carbon zig-zag… Numbering may help…

23 Skeletal Structure from Condensed C1 has two CH 3. Add two 1C lines (shown in red). C3 has a Br attached (shown in blue). Answer:

24 Skeletal Structure from Condensed One more time – draw a skeletal structure CH 3 CH 2 C(CH 3 ) 2 CH(CH 2 CH 3 )CH 2 CH(OH)CH(CH 3 ) 2 Find that back bone…

25 Skeletal Structure from Condensed Back bone highlighted in red: CH 3 CH 2 C(CH 3 ) 2 CH(CH 2 CH 3 )CH 2 CH(OH)CH(CH 3 ) 2 Seven in the back bone… number left to right… 2 single carbons on #3 (from left side), two-carbon chain on #4, OH on #6 and 2 single carbons on #7.

Download ppt "Converting Skeletal Structures to Condensed Formulas, and Vice Versa."

Similar presentations

Newman Projections & Cycloalkane Structure

Newman Projections & Cycloalkane Structure
Literal Equations. Example 1 Formula relating distance, rate and time.. Identify what you want to get by itself! Since there is an r right next to the.

Literal Equations. Example 1 Formula relating distance, rate and time.. Identify what you want to get by itself! Since there is an r right next to the.
Ch 22: Organic Chemistry.

Ch 22: Organic Chemistry.
IUPAC Nomenclature Naming Molecules by Following the Rules.

IUPAC Nomenclature Naming Molecules by Following the Rules.
Surviving Chair Structures. Surviving Chair Structures A “How-to” Review.

Surviving Chair Structures. Surviving Chair Structures A “How-to” Review.
Chapter 11 Introduction to Organic Chemistry: Alkanes

Chapter 11 Introduction to Organic Chemistry: Alkanes
Chapter 12 Alkanes 12.2 IUPAC Naming System for Alkanes

Chapter 12 Alkanes 12.2 IUPAC Naming System for Alkanes
1 12.1 Alkanes Chapter 12 Alkanes. 2 Alkanes Alkanes: Contain only C and H. Have only single C—C bonds. Have a general formula of C n H 2n +2. C AtomsH.

Alkanes Chapter 12 Alkanes. 2 Alkanes Alkanes: Contain only C and H. Have only single C—C bonds. Have a general formula of C n H 2n +2. C AtomsH.
1)  A compound gives a mass spectrum with peaks at m/z = 77 (40%), 112 (100%), 114 (33%), and essentially no other peaks. Identify the compound. First,

1)  A compound gives a mass spectrum with peaks at m/z = 77 (40%), 112 (100%), 114 (33%), and essentially no other peaks. Identify the compound. First,
Organic Chemistry - Introduction

Organic Chemistry - Introduction
To name an alkane you need to know the number of carbon atoms it contains.

To name an alkane you need to know the number of carbon atoms it contains.
Organic Chemistry Structural isomers Naming Branched Alkanes.

Organic Chemistry Structural isomers Naming Branched Alkanes.
Units of Unsaturation This is also called “Degrees of Unsaturation” or “Double Bond Equivalents (DBE)”. By looking at a molecular formula, it is possible.

Units of Unsaturation This is also called “Degrees of Unsaturation” or “Double Bond Equivalents (DBE)”. By looking at a molecular formula, it is possible.
General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc.1 Chapter 11 Introduction to Organic Chemistry: Alkanes 11.2 Alkanes.

General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc.1 Chapter 11 Introduction to Organic Chemistry: Alkanes 11.2 Alkanes.
Skeletal Formula CH3CH2CH2CH2CH2CH3

Skeletal Formula CH3CH2CH2CH2CH2CH3
Carbon Compounds Organic Chemistry. Structural Models and Diagrams Used to show the structure of the atoms in the molecule Isomers: Different structures.

Carbon Compounds Organic Chemistry. Structural Models and Diagrams Used to show the structure of the atoms in the molecule Isomers: Different structures.
Functional Groups C CC C C Br CH H C Cl CC C C O H CH C C I alkenealkynetertiary halogenoalkane secondary halogenoalkane primary halogenoalkane tertiary.

Functional Groups C CC C C Br CH H C Cl CC C C O H CH C C I alkenealkynetertiary halogenoalkane secondary halogenoalkane primary halogenoalkane tertiary.
~CH2CHCH2CHCH2CHCH2CHCH2CHCH2CH~

~CH2CHCH2CHCH2CHCH2CHCH2CHCH2CH~
Ch 22: Organic Chemistry.

Ch 22: Organic Chemistry.
Basic Chemistry Copyright © 2011 Pearson Education, Inc. 1 Chapter 17 Organic Chemistry 17.1 Alkanes Compounds in food contain many organic compounds.

Basic Chemistry Copyright © 2011 Pearson Education, Inc. 1 Chapter 17 Organic Chemistry 17.1 Alkanes Compounds in food contain many organic compounds.

Similar presentations

Ads by Google