- Rise-0.mp3
- Rise-0.mp4
- Rise-I.mp3
- Rise-I.mp4
- Rise-Instrumental-0.mp3
- Rise-Instrumental-0.mp4
- Rise-Instrumental-I.mp3
- Rise-Instrumental-I.mp4
- Rise-prelude.mp3
[Intro]
Did the rise
(Come as a surprise)
Do you surmise
(To realize?)
[Verse 1]
Introduction
(Of fermentation)
Into the equation
(Revelation!)
[Chorus]
Did the rise
(Come as a surprise)
Do you surmise
(To realize?)
[Bridge]
Chemical (Reaction!)
Satisfaction (Get real)
Needed (For kneaded)
Rise, Rise, Rise!
(Realize!)
[Verse 2]
Oven spring
(Just the thing)
Proofing improving
(Uprising!)
[Chorus]
Did the rise
(Come as a surprise)
Do you surmise
(To realize?)
[Bridge]
Chemical (Reaction!)
Satisfaction (Get real)
Needed (For kneaded)
Rise, Rise, Rise!
(Realize!)
[Chorus]
Did the rise
(Come as a surprise)
Do you surmise
(To realize?)
[Bridge]
Chemical (Reaction!)
Satisfaction (Get real)
Needed (For kneaded)
Rise, Rise! (Realize!)
Rise, Rise! (Realize!)
[Outro]
(Rise, Rise!) Realize!
(Rise, Rise!) Realize!
A SCIENCE NOTE
Bread rises primarily due to a process called fermentation, driven by yeast or, in some cases, baking soda or baking powder. Here’s a step-by-step breakdown of how it works:
- Yeast Activation and Fermentation: When bread dough is mixed, yeast (a type of fungus) consumes sugars present in the flour, breaking them down through a process called fermentation. As yeast metabolizes these sugars, it produces carbon dioxide (CO₂) and ethanol (alcohol) as byproducts. This CO₂ creates bubbles in the dough, which causes it to expand and rise.
- Gluten Structure: Gluten, a protein in wheat flour, becomes stretchy and elastic when kneaded, forming a mesh-like structure that traps the CO₂ bubbles. This structure provides the dough with its elasticity, allowing it to hold gas and expand.
- Proofing: During the proofing stage (when the dough is left to rise before baking), the yeast continues to produce CO₂, which builds up inside the dough, making it expand even more.
- Baking: Once the dough is placed in the oven, the heat accelerates yeast activity, causing a rapid production of CO₂ in what’s known as “oven spring.” The dough’s internal temperature then rises enough to kill the yeast and stop fermentation. The gluten structure solidifies, setting the bread’s shape and texture.
In recipes that use baking soda or baking powder instead of yeast, the rising effect comes from a chemical reaction. Baking soda, when combined with an acid (like buttermilk or vinegar), or baking powder, when mixed with heat or moisture, releases CO₂, causing the dough or batter to expand. This method is common in quick breads and muffins, as it doesn’t require time to ferment or proof.
In short, bread rises due to the production of carbon dioxide, either from yeast fermentation or chemical reactions, combined with the gluten structure that traps gas bubbles and allows expansion.