Chemistry SL
6
Chapters
243
Notes
Chapter 1 - Models Of The Particulate Nature Of Matter
Chapter 2 - Models Of Bonding & Structure
Chapter 3 - Classification Of Matter
Chapter 4 - What Drives Chemical Reactions?
Chapter 5 - How Much, How Fast & How Far?
Chapter 6 - What Are The Mechanisms Of Chemical Change?
Chemistry SL
Chapter 3 - Classification Of Matter
Unlocking Organic Compounds: An Introduction To IR Spectroscopy
465 words
3 mins read
Last edited onย 5th Nov 2024
Table of content
Introduction to IR spectroscopy ๐
- What is it? It's a science tool that helps us identify the types of bonds in organic compounds. Imagine it like a bond detective!
- Why use it? By looking at the bonds, we can determine the compound's functional groups, which are like the special features or abilities of a molecule.
How does it work? ๐ถ
- IR Radiation Dance: Expose a compound to infrared (IR) radiation, and its molecules start dancing (technically, they absorb the radiation and vibrate).
- Types of Dance Moves: Molecules have two main dance moves:
- Stretching/Compression: Think of it like a molecule doing the YMCA. This move is seen in simple molecules like hydrogen chloride.
- Bending: This is when molecules change their bond angle - imagine a molecule trying to touch its toes! This is seen in complex molecules like water and carbon dioxide.
What's this wavenumber business? ๐
- Wavenumber (ν): A fancy way of describing absorption in IR. It's like a molecular DJ's playlist track number.
- Math Moment: Wavenumber = 1/Wavelength (Flip the wavelength upside down!)
What makes a molecule IR-active? ๐
- For a molecule to dance to the IR tunes, it needs to change its "dipole moment" during the vibration. Imagine it as needing the right rhythm!
- No Rhythm Molecules: Molecules like H2, O2, and Cl2 can't dance because they don’t have the right dipole groove. Hence, they're IR-inactive.
- Groovy Molecules: Molecules like hydrogen fluoride (HF) can dance because they change their rhythm. Hence, they're IR-active.
Unlock the Full Content! 
Dive deeper and gain exclusive access to premium files of Chemistry SL. Subscribe now and get closer to that 45 ๐
Chemistry SL
Chapter 3 - Classification Of Matter
Unlocking Organic Compounds: An Introduction To IR Spectroscopy
465 words
3 mins read
Last edited onย 5th Nov 2024
Table of content
Introduction to IR spectroscopy ๐
- What is it? It's a science tool that helps us identify the types of bonds in organic compounds. Imagine it like a bond detective!
- Why use it? By looking at the bonds, we can determine the compound's functional groups, which are like the special features or abilities of a molecule.
How does it work? ๐ถ
- IR Radiation Dance: Expose a compound to infrared (IR) radiation, and its molecules start dancing (technically, they absorb the radiation and vibrate).
- Types of Dance Moves: Molecules have two main dance moves:
- Stretching/Compression: Think of it like a molecule doing the YMCA. This move is seen in simple molecules like hydrogen chloride.
- Bending: This is when molecules change their bond angle - imagine a molecule trying to touch its toes! This is seen in complex molecules like water and carbon dioxide.
What's this wavenumber business? ๐
- Wavenumber (ν): A fancy way of describing absorption in IR. It's like a molecular DJ's playlist track number.
- Math Moment: Wavenumber = 1/Wavelength (Flip the wavelength upside down!)
What makes a molecule IR-active? ๐
- For a molecule to dance to the IR tunes, it needs to change its "dipole moment" during the vibration. Imagine it as needing the right rhythm!
- No Rhythm Molecules: Molecules like H2, O2, and Cl2 can't dance because they don’t have the right dipole groove. Hence, they're IR-inactive.
- Groovy Molecules: Molecules like hydrogen fluoride (HF) can dance because they change their rhythm. Hence, they're IR-active.
Unlock the Full Content!
Dive deeper and gain exclusive access to premium files of Chemistry SL. Subscribe now and get closer to that 45 ๐
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