What is the science behind Magic Cake?
Magic Cake has a seemingly simple batter, that is mixed and baked as a single entity. (See link for the full recipe and method). When it is baked, it separates into three distinct layers:
- A dense bottom layer
- A custard middle layer
- A cakey top layer
(Photo and baking by Rfusca)
What is the science behind this? How does the single batter separate and create three separate and well defined layers?
As many photos of various magic cakes show (such as those at the recipe author's Part II, page), there is a definite edge effect on the layers, so it is not simply separation of components due to differing density.
Best Answer
In case you are interested, the magic comes at least partly from the milk. I accidentally forgot to add it (but other than that, I followed the recipe to the letter), and I ended up with a regular vanilla cake, no layers at all. I imagine this cake part should've been the (partly) the upper layer.
As milk is heavier than some of the other ingredients, it sinks to the bottom and creates the custard layer. I would like to expand this answer, with a remark on what we call 'flantaart', translated as 'custard pie'. There is one batter, and after baking, a well defined crust and a custard on top. I'll look it up when I get home, to look for similarities between the two recipes.
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Quick Answer about "What is the science behind Magic Cake?"
Magic cakes use all of the typical cake batter ingredients (eggs, sugar, flour, butter and milk), but the cake's unique baking process naturally (or magically!) results in three distinctly textured layers. While the top is light and spongy, the middle becomes soft and custardy and the base turns dense and rich.What is the science behind cake?
As the batter temperature rises, the gases in the air cells expand the stretchy gluten from the flour, then the chemical leavening agents release carbon dioxide. As the batter reaches 60C, water vapour begins to form and expand the air cells even further.Why does magic cake separate?
The Science Behind Magic CakeA quite liquid batter and a low baking temperature are main reasons why this cake magically separates into three different layers during baking. Flour is the heaviest ingredient in this recipe so it sinks to the very bottom making fudgy bottom layer.What is the food science behind baking cakes?
During the baking the bubbles of air will expand and the cake will 'rise'. At the same time the stretchy gluten in the flour \u2013 which has formed an elastic network round the air bubbles \u2013 will stretch until, at a higher temperature, it loses its elasticity and the shape of the cake becomes fixed.What makes a cake rise science?
The Science of Cake-makingThe baking soda reacts with the acidic ingredient to produce tiny bubbles of CO2 that get trapped in the batter. The gas bubbles expand in the heat of the oven and rise up, giving you a fluffy and airy cake.The Science Behind Yellow Cake- Kitchen Conundrums with Thomas Joseph
More answers regarding what is the science behind Magic Cake?
Answer 2
I think there are two important factors contributing to the different layers from a single batter. The first one is the oven temperature. This magic cake is baked at a lower 300-320F than normal 350-375F oven temperature. This lower temperature allows the starch in the batter to settle before coagulation takes place. This contributes to the bottom dense layer. The second factor is the large amount of liquid in the batter. In a regular chiffon cake recipe, only 10-15% of the weight is liquid whereas in this magic cake, the liquid is almost 50% of the total batter weight. This is what makes up the custard middle layer. As the starch settles in the bottom and custard forms in the middle, the air in the whipped egg white rises to the top under heat and makes up the fluffy top cake layer.
Answer 3
Cook's Country has a recipe for Magic Chocolate Flan Cake with two layers that actually switch places (top to bottom) during baking. I know it's not the same as your Magic Cake, but they explain how it works just below the recipe instructions. My hunch is that some of the same principles are at work in your cake.
http://www.cookscountry.com/recipes/7229-magic-chocolate-flan-cake
In case you don't have a login there:
While our Magic Chocolate Flan Cake is baking, the cake layer and flan layer switch places in the oven. Amazingly, they don’t mix together; they just reverse positions. How is that even possible? Our science editor explained that the combined baking soda and acidic buttermilk in the cake layer produce gas, making the cake less dense than the flan. The (lighter) cake layer rises and the (denser) flan layer sinks. The water bath is critical, too. Since the water comes only halfway up the Bundt pan, only the top half of the pan gets hotter than the boiling point of water. As the cake batter slowly heats up from the surrounding hot water, it expands (from the gas), pushing the flan layer higher. The eggs in the flan are thus exposed to more heat at the top of the Bundt pan, so they cook and start to solidify. The solidifying flan can’t fuse with the (still fluid) cake batter, and since it is denser, the flan sinks and the batter seeps up at the edges of the pan. Once the lighter cake batter rises to the top, it is exposed to the higher temperature at the top of the Bundt pan and it finally sets.
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Images: Alena Shekhovtcova, Amit Talwar, Aleksandr Burzinskij, Francesco Ungaro