Chemistry HL
Chemistry HL
6
Chapters
243
Notes
Chapter 1 - Models Of The Particulate Nature Of Matter
Chapter 1 - Models Of The Particulate Nature Of Matter
Chapter 2 - Models Of Bonding & Structure
Chapter 2 - Models Of Bonding & Structure
Chapter 3 - Classification Of Matter
Chapter 3 - Classification Of Matter
Chapter 4 - What Drives Chemical Reactions?
Chapter 4 - What Drives Chemical Reactions?
Chapter 5 - How Much, How Fast & How Far?
Chapter 5 - How Much, How Fast & How Far?
Chapter 6 - What Are The Mechanisms Of Chemical Change?
Chapter 6 - What Are The Mechanisms Of Chemical Change?
IB Resources
Chapter 1 - Models Of The Particulate Nature Of Matter
Chemistry HL
Chemistry HL

Chapter 1 - Models Of The Particulate Nature Of Matter

Explore Pure Substances & Mixtures!

Word Count Emoji
520 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Hello, chemistry enthusiasts! Today, we're going to dive into the world of pure substances and mixtures, which are crucial concepts in IBDP Chemistry. Grab your lab coats and get ready for an exciting exploration. You won't need goggles for this one, though, because we're just taking notes.

Pure substances vs. mixtures🔬

First things first, let's understand the key difference between pure substances and mixtures.

 

Pure Substances 👩‍🔬:

These are the lone wolves of the chemistry world. A pure substance consists of only one type of particle and can't be broken down further into its individual constituents without a chemical reaction.

 

Think of it as a perfectly curated art gallery; every painting belongs to the same artist and shares a common theme. You can't take out a single painting and say it's by a different artist. The only way to change anything is by adding or removing entire paintings, changing the gallery's overall theme.

 

A cool real-world example is water (H2O). It's a pure substance made by chemically bonding two hydrogen atoms and one oxygen atom. Despite its components' exciting properties (hydrogen being explosive and oxygen supporting combustion), water is perfectly calm and doesn't share any of these traits.

 

Mixtures 🧪:

On the other side, we have mixtures. They're like a potluck party where each guest brings a different dish. The dishes are not chemically bonded and can be separated again, each retaining its original flavor (or in our case, physical properties).

 

Imagine a fruit salad with strawberries, bananas, and blueberries. Each fruit maintains its taste and can be taken out without altering the other fruits.

 

A well-known example is air, a homogeneous mixture of about 80% nitrogen, 20% oxygen, and a pinch of other gases. The "homogeneous" part means the components are evenly mixed, like a perfectly whisked cake batter. No matter where you take a sample, it tastes the same (please don't actually taste the air though!).

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IB Resources
Chapter 1 - Models Of The Particulate Nature Of Matter
Chemistry HL
Chemistry HL

Chapter 1 - Models Of The Particulate Nature Of Matter

Explore Pure Substances & Mixtures!

Word Count Emoji
520 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Hello, chemistry enthusiasts! Today, we're going to dive into the world of pure substances and mixtures, which are crucial concepts in IBDP Chemistry. Grab your lab coats and get ready for an exciting exploration. You won't need goggles for this one, though, because we're just taking notes.

Pure substances vs. mixtures🔬

First things first, let's understand the key difference between pure substances and mixtures.

 

Pure Substances 👩‍🔬:

These are the lone wolves of the chemistry world. A pure substance consists of only one type of particle and can't be broken down further into its individual constituents without a chemical reaction.

 

Think of it as a perfectly curated art gallery; every painting belongs to the same artist and shares a common theme. You can't take out a single painting and say it's by a different artist. The only way to change anything is by adding or removing entire paintings, changing the gallery's overall theme.

 

A cool real-world example is water (H2O). It's a pure substance made by chemically bonding two hydrogen atoms and one oxygen atom. Despite its components' exciting properties (hydrogen being explosive and oxygen supporting combustion), water is perfectly calm and doesn't share any of these traits.

 

Mixtures 🧪:

On the other side, we have mixtures. They're like a potluck party where each guest brings a different dish. The dishes are not chemically bonded and can be separated again, each retaining its original flavor (or in our case, physical properties).

 

Imagine a fruit salad with strawberries, bananas, and blueberries. Each fruit maintains its taste and can be taken out without altering the other fruits.

 

A well-known example is air, a homogeneous mixture of about 80% nitrogen, 20% oxygen, and a pinch of other gases. The "homogeneous" part means the components are evenly mixed, like a perfectly whisked cake batter. No matter where you take a sample, it tastes the same (please don't actually taste the air though!).

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Chemistry HL. Subscribe now and get closer to that 45 🌟