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  • Whether it’s doughnuts, french fries, chicken, or Oreosfried food is everywhere.

  • And it’s delicious.

  • I mean, isn’t that why we all go to fairs?

  • Besides making our tastebuds happy, deep-fried foods also involve some really cool chemistry

  • from the cooking process itself, to the kind of oil and batter youre using.

  • When you submerge a piece of food in really hot oil, a bunch of chemical reactions start

  • happening, cooking your food and giving it a crisp outer layer.

  • Typically, youll want the temperature of the oil to be around 180 degrees Celsius,

  • but that varies depending on the recipe.

  • Youll know the oil is hot enough when you drop some food in and it starts bubbling.

  • Now, some people might think that’s the oil boiling, but it’s not.

  • It’s actually moisture boiling off the surface of the food, since the oil’s temperature

  • is nearly twice the boiling point of water.

  • As the water leaves the food, two things are happening:

  • First, the food’s surface dehydrates and a crispy crust begins to form!

  • But also, the escaping water molecules leave gaps that let oil molecules enter the food,

  • which is what researchers call the oil uptake.

  • In fact, some studies have shown that the amount of oil uptake is directly proportional

  • to the amount of water that’s lost.

  • More oil increases the food’s fat content, and therefore its energy content, also known

  • as the calories.

  • And if too much oil gets absorbed, you might be left with a greasy mess of a meal.

  • But you don’t want to take your food out of the oil too soon, either.

  • Otherwise, the outside won’t be hot enough, for long enough, to cook it all the way through.

  • That’s because cooking is all about heat transfer!

  • When food is in a deep fryer, the outside layer of molecules is heated up thanks to

  • convection, from the currents of hot oil flowing around.

  • Then, all of those food molecules start bumping into each other and transferring heat energy.

  • So, the inside is heated because of conduction.

  • So those are the basics of deep frying food, but there’s a lot more that goes into making

  • a tasty corn dog.

  • Like, what happens when you add batter or a breading to the outside of your soon-to-be-fried

  • food?

  • Well, batter is basically an extra layer between the food and the hot oil, so the batter is

  • mostly what’s getting dehydrated.

  • All that heat transfer is still happening.

  • Only this way, the food at the center holds onto more moisture and doesn’t get too dry.

  • As fish and chips, fried chicken, and tempura lovers will know, a little batter can also

  • let you add more flavor to the food and give it a crunchy, textured crust.

  • You can even add beer to your batter to make the crust softer and crispier!

  • That’s because the carbon dioxide in the beer forms bubbles that fluff up the batter,

  • and foaming agents, which are certain proteins found in beer, keep those bubbles from bursting

  • as fast as they normally would.

  • Plus, the ethanol in beer evaporates faster than water, because alcohol molecules aren’t

  • as strongly attracted to each other as water molecules are.

  • This means the batter will dry out faster, so the food doesn’t have to be in the fryer

  • as long to get a crispy crust.

  • But one study did show that beer batters do have more oil uptake than water-based rice

  • or wheat battersso calorie-counters be warned!

  • You might also have heard that some oils are better to use than others when frying food.

  • Different oils are made up of different kinds of fat molecules, or lipids, and have different

  • nutritional benefits.

  • They can also affect the flavor of your food, because they break down differently.

  • See, every oil has something called a smoke point – a temperature where it starts to

  • create smoke, which can give the food a bad taste.

  • Basically, the heat causes the lipids in the oil to break down and produce some volatile

  • compounds, which are chemicals that can easily become gases.

  • Some of these leave the oil and enter the nearby atmosphere as smoke, but others can

  • enter the food and change its flavor.

  • Corn oil, for example, is made up of lipids with lots of double bonds, also known as polyunsaturated fats.

  • And it tends to break down more easily, at lower temperatures.

  • That’s because polyunsaturated fats have some weak carbon-hydrogen bonds, which break

  • and set off a chain of chemical reactions that eventually produce volatile compounds.

  • So, when youre deep-frying something, youll probably want to look for an oil that has

  • a high smoke point.

  • And most vegetable oils fit that bill!

  • Deep-frying food is a lot more scientific than you’d expect.

  • You have to apply all kinds of knowledge about heat transfer and fat content, so that your

  • food is actually edible.

  • So, treat this as some food for thought the next time youre eating some delicious,

  • hot french fries.

  • Thanks for watching this episode of SciShow!

  • So Thanksgiving is coming up, along with a bunch of other holidays.

  • And weve got just the thing!

  • If you want to look really snazzy in the kitchen, or for any messy task, head over to dftba.com/scishow

  • to check out these awesome new SciShow aprons.

  • And, as always go to youtube.com/scishow

  • and subscribe.

Whether it’s doughnuts, french fries, chicken, or Oreosfried food is everywhere.

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揚げ物の化学 (The Chemistry of Fried Food)

  • 162 13
    osmend に公開 2021 年 01 月 14 日
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