Finally, The Science Behind Why Popcorn Pops
People may not have always known what makes popcorn pop, but humans have been enjoying popcorn for thousands of years.
Ancients attributed popcorn’s magic to tiny gods trapped within the kernel that would burst with anger when heated, but we now know that the real reason why popcorn pops is a fascinating mix of chemistry and physics.
A Closer Look at the Kernel
Corn kernels have two layers. The construction and composition of corn kernels create the conditions needed for popping.
The outer layer is the light yellow, transparent hull, and it is the secret to popping corn. When intact, the hull is impervious to moisture—none will be released until the hull is breached. This will act as a pressure vessel during popping.
Inside of the hull is the endosperm. The endosperm is comprised of a hard starch and a small amount of moisture (approximately 14 percent).
It is rock hard before it is popped, as you may have experienced by biting into an unpopped kernel (and possibly breaking a tooth).
The Perfect Pop
When the kernel is heated, the small amount of moisture trapped in the kernel turns to steam, which is pushed past the boiling point by the pressurized environment created by the hull.
The pressurized heat gelatinizes the hard starch, turning it from rock solid to a very malleable form.
As the kernel continues to heat, the pressure eventually exceeds the strength of the hull, at which point the hull ruptures.
The pressurized steam within the kernel immediately expands and causes the gelatinized starch to puff in the process.
As the steam escapes, the temperature of the starch quickly drops and allows it to once again take solid form. The result is a perfectly fluffy, popped kernel.
In every batch of popcorn, there are always a few kernels that never pop or simply crack open without popping. There are several possible causes, but a few missing links in the popping formula are usually the cause.
A faulty hull is the most common cause of a popping failure. If the hull has a small crack or otherwise compromised area, pressure will not build within the kernel.
As the moisture in the kernel heats and turns to steam, it slowly leaks out of the kernel. These kernels may stay completely intact or will split open before the starch gelatinizes, causing an open but compact kernel.
Please like, share and tweet this article.
Pass it on: Popular Science