From f68f0bdff44272c2c97c4625a24c9e90d61bdc29 Mon Sep 17 00:00:00 2001 From: Daniel Chen Date: Wed, 16 Oct 2019 19:44:58 +0000 Subject: [PATCH] Update Unit 1: Chemistry Part 2.md --- Grade 10/Science/SNC2DZ/Unit 1: Chemistry Part 2.md | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/Grade 10/Science/SNC2DZ/Unit 1: Chemistry Part 2.md b/Grade 10/Science/SNC2DZ/Unit 1: Chemistry Part 2.md index 2e82341..0f83fc1 100644 --- a/Grade 10/Science/SNC2DZ/Unit 1: Chemistry Part 2.md +++ b/Grade 10/Science/SNC2DZ/Unit 1: Chemistry Part 2.md @@ -41,7 +41,7 @@ ## Representing Chemical Reactions - A Chemical equation! - Used to model what is happening during a chemical reaction. - - We use an arrow instead of an equal sign to show `beomces`, `reacts to form`, `produces` + - We use an arrow instead of an equal sign to show `becomes`, `reacts to form`, `produces` - On the **left** side, we always have the **`REACTANTS`**, (INPUT), these get used up in the chemical reaction - There can be plus signs to show multiple `reactants`. (Recipes, we are adding them together) - On the **right** side, we have the **`PRODUCTS`** (OUTPUT). @@ -110,5 +110,5 @@ - If carbonic acid ($`H_{2}CO_{3}`$) would be formed it instantly splits into water and carbon dioxide - This reaction occurs even if both products would be aqueous - If this reaction occurs the product is written as water and carbon dioxide - - $`H(A) + B(OH) \rightarrow AB + H_{2}O` or $`H(A) + B(CO_{3}) \rightarrow AB + H_{2}O + CO_{2}`$ + - $`H(A) + B(OH) \rightarrow AB + H_{2}O`$ or $`H(A) + B(CO_{3}) \rightarrow AB + H_{2}O + CO_{2}`$ - e.g., $`HCl_{(aq)} + NaOH_{(aq)} \rightarrow NaCl_{(aq)} + H_{2}O`$ \ No newline at end of file