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How science and cooking made us go wow

Colloidal suspensions, emulsions, globules, denaturing... every time you cook, you're an accidental boffin. Here's how clever you are. #ScienceWeek

Chocolate date meringue cake Source: Murdoch Books / Greg Elms

There's nothing quite like a themed week/month/year to make us see things in a new light. National Science Week is a case in point. Scrolling through the available online courses, lectures, resources and tours, we were quickly lost down the rabbit hole that is the InquiBox At Home Science Scavenger Hunt. It's for kids, but that wasn't going to stop us.

We learned:

Inside each small kernel of corn is a drop of water and that's why it pops when it's hot.
Cutting an onion releases enzymes that make you cry (boo to you, syn-propanethial-S-oxide!)
Another enzyme, known as polyphenol oxidase, is responsible for triggering an apple's flesh to turn brown when it's exposed to oxygen.

How about that?

All this time in our kitchen lab coat has reminded us that science is happening every time we cook. Here are a few key reactions that will surely add further interest in cooking dinner night after night.

Hollandaise chain reaction

Grilled prawns with lemon myrtle and vanilla hollandaise Source: Supplied

A colloidal suspension is a mixture having particles suspended in a continuous phase with another component. Hollandaise sauce is what it looks like in the kitchen. Add some lemon dried myrtle-spiced banana prawns and you'll quickly be appreciating the finer points of science.

Blender Hollandaise

Mayo emulsion

Poached trout with lemon mayo Source: Alan Benson

Mayonnaise is another excellently creamy example of a colloidal suspension. Egg acts as an emulsifier to bind the oil and lemon (or vinegar) together. Like a finicky marriage, if you don't get your oil/acid parts correct, the egg hasn't got a chance and mayo will separate. It helps a great deal if the ingredients aren't ice-cold from the fridge. As in all things, bringing ingredients to room temp is generally a good idea.

Whipped suspension

Vietnamese iced coffee pavlova Source: Georgia McDermott

Whipping cream turns it into a foam - a suspension of gas bubbles stabilised by triglycerides either sticking together or attaching themselves to air pockets in the fat globules in the cream. The word 'globules' is enough to turn you off whipped cream forever, isn't it? Fear not, this iced coffee pav will soon bring you back to your senses.

Easy tiramisu

Strawberry rhubarb clafoutis with coconut whipped cream

Frozen strawberry tartlets with vanilla whipped cream and meringue

Mother denatured

Chocolate date meringue cake Source: Murdoch Books / Greg Elms

Speaking of pavlova, let's talk about meringue. The ability to turn egg whites into a soft, structured dessert is surely a magical thing. Yep, science is more than a little magical. When you whisk egg whites, bubbles form, creating a foam. The wires of the whisk beat the proteins, which unravel - a process known as denaturing. These proteins net together and keep the bubbles from popping. The added sugar in meringue helps more proteins gather on the surface of the air bubbles, stabilising them even further.

The tiniest bit of yolk in your egg whites will wreck the entire meringue.

Top tip: the tiniest bit of yolk in your egg whites will wreck the entire meringue. This is because the yolk contains fat molecules, which push the proteins away from the air bubbles, causing them to pop. Any hint of oil or butter on your whisk or bowl will have the same deflating effect, so for a puffy meringue, make sure everything is spotlessly clean.

A little salty over here

Salt-preserved citrus skins Source: Murdoch Books / Alan Benson

We clever humans have been using salt as a food preservative since Ancient Roman times. Salt is able to preserve almost all foods for months or even years via a process of osmosis. Through osmosis water molecules in the food transfer to the salt, dehydrating the bacteria that would usually decompose the food. Not only that, but salt enhances the flavour of food, making salt-preserved foods very tasty indeed. Something you'll quickly find out when you drop a few of these salt-preserved citrus skins in your next tagine.

Rendered better

Crispy roasted pork belly Source: Donna Hay

Ah, steak. Bacon! And, oh goodness, pork crackling. Rendering is very welcome indeed. It's basically the process of heating at a low temperature until all proteins solidify and any water evaporates. The result is a crispier layer left on meat and rendered lard to melt and use for cooking another day. Rendering breaks down the collagen in muscle fibres, which in turn makes your steak more tender and your pork sensational. See also 'caramelisation', below.

Good fermentations

Pink pickled eggs Source: Murdoch Books / Alan Benson

Pink pickled eggs seem like the perfect place to start to explain fermentation. They're just so pretty that it's hard to believe they've basically been eaten away at by millions of microbes. To ferment food, you carefully balance the temperature and pH to encourage the growth of good microorganisms. These happily munch away on the parts of the food that usually spoils, releasing chemicals as a by-product to preserve and change its flavour and texture into something altogether delicious. Thank you microbes!

Pickled seaweed

Cabbage kimchi (pogi kimchi)

Yucatán pickles

Caramelisation station

Vanilla crème brûlée Source: Alan Benson

It's why onions cooked with a little sugar taste so good. Why carrots and pumpkins are sweeter when baked. It's how cream and sugar turn into dulce de leche and why the top of crème brûlée cracks just so. It's caramelisation and it's a bonafide marvel. This non-enzymatic browning reaction occurs when water is removed from a sugar, followed by isomerization and polymerisation reactions that are as complicated as they sound. All we really need to know is that there is a chemical released during the process, producing that characteristic caramel flavour we all love so much.

Self-saucery

Chocolate self-saucing pudding jars Source: Alan Benson

A sloppy mess of batter, powder and water somehow magically transforms itself into the best winter dessert around. TBH, we're not entirely sure how self-saucing puddings work, but we are very grateful that they do. It will have something to do with creating layers that interact with other layers in specific ways but... yeah, we've got nothing.

If anyone out there is more than a kitchen boffin (ie, an actual science-y boffin), we'd love to learn the science behind these little pots of yum. If you could also unravel the mystery behind the impossible pie, that would be fab. We are all ears, and spoons.

Kitchen science

Preserved lemons

Rendered lard

How to make caramelised onions while you sleep

Kombucha

Mexican chocoflan

The science of ceviche - is it cooked?

Science in the kitchen: the fresher the flour, the softer the cake

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SBS Food is a 24/7 foodie channel for all Australians, with a focus on simple, authentic and everyday food inspiration from cultures everywhere. NSW stream only.

Watch now

Follow SBS Food

6 min read

Published 14 August 2020 11:08am

Updated 14 August 2020 12:05pm

By SBS Food bite-sized

Source: SBS

How science and cooking made us go wow

Colloidal suspensions, emulsions, globules, denaturing... every time you cook, you're an accidental boffin. Here's how clever you are. #ScienceWeek

Hollandaise chain reaction

READ MORE

Mayo emulsion

Whipped suspension

READ MORE

Mother denatured

A little salty over here

Rendered better

Good fermentations

READ MORE

Caramelisation station

Self-saucery

Kitchen science

Have a story or comment? Contact Us

How science and cooking made us go wow

Colloidal suspensions, emulsions, globules, denaturing... every time you cook, you're an accidental boffin. Here's how clever you are. #ScienceWeek

READ MORE

READ MORE

READ MORE

Kitchen science

Have a story or comment? Contact Us

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