Top 6 Applications of Charles Law in Real Life

Top 6 Applications of Charles Law
Top 6 Applications of Charles Law

What are the top 6 Applications of Charles Law?

Here is a list of the 7 basic applications of Charles’s Law.

  1. Pressure law:
    This law is applicable when we have a fixed amount of gas in a container, and we want to know how much pressure and volume it will have at a certain temperature.
  2. Ideal gas law:
    Even though this law is applicable for ideal gases. But it is still a good model for other gases as well.
  3. Escape velocity:
    Escape velocity is the speed at which a projectile will get out of earth’s

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The Ideal Gas Law of Charles Law establishes a relationship between volume and temperature at constant pressure. In other words, according to the definition of Charles’ law, the volume of a gas increases with increasing temperature at constant pressure and vice versa.

The Law of Volumes is another name for Jacques Charles’ law. Despite the fact that Charles Law was discovered in the late 1700s, we can see its applications in our daily lives.

This phenomenon was first demonstrated by French Scientist, Inventor, and Mathematician Jacques Charles in his unpublished work in the 1780s.

Top 6 Charles Law Examples in Real Life

If you think, you can’t relate to Charles Law examples in real life. Well, here is your chance to think again…!!!

  1. Hot Air Balloon
  2. Bursting Of A Deodorant
  3. Bakery Products
  4. Turkey Pop Up Timer
  5. Opening Of A Soda Can
  6. Helium Balloon On Cold Day

Hot Air Balloon

A Hot Air Balloon/Credit: Wikimedia Commons

People frequently ask, “How do hot air balloons fly?” Or how do hot air balloons function? Any guesses??? Of course, whatever you believe is correct. All of the answers to these questions can be found near Charles Law.

In fact, when it comes to the history of hot air ballooning, Charles law and hot air balloons are inextricably linked. In other words, Jacques Charles was a well-known hot-air balloonist.

He was notable for being one of the few people who took part in the world’s first hydrogen balloon flight. The working principle of a hot air balloon is quite simple.

A hot air balloon is made up of three parts: an envelope that stores heated air, a burner, and a basket or gondola that transports passengers.

When the fuel source is ignited, the air within the envelope is heated. According to Charles’ Law, as the temperature of the air rises, so does the volume of the air.

As a result, the density of the air contained within an envelope becomes lighter than the density of the surrounding atmosphere. As a result of buoyant force, a hot air balloon flies high in the sky.

Bursting Of A Deodorant Bottle

Do not expose to direct sunlight/Credit:

The next application of Charles Law on the list is the bursting of a deodorant bottle. Well, in today’s world, we are all well aware of what deodorants are. And why are they being used?

I also wonder how many of us have the opportunity to read the instructions written as warning signs such as “pressurised container, protect from sunlight.” Do not expose to temperatures above 50°C.”

Have you ever wondered why? Yes, your guess is correct. Charle’s Law is to blame. The gas molecules inside the deodorant bottle expand under high temperatures, according to the definition of Charles law. This results in the deodorant bottle bursting…!!!

Bakery Products

A Delicious Cake/Credit: Medium

Yes, indeed. A bakery product is one of the delicious Charles law examples in real life. You can thank Jacques Charles if you enjoy bakery products such as bread and cakes.

The application of Charles Law in real life can also be seen in our kitchen. Yeast is used for fermentation to make bread and cakes soft and spongy.

Carbon dioxide gas is produced by yeast. When bread and cakes are baked at high temperatures, carbon dioxide gas expands as the temperature rises.

As a result of this expansion, our bread and cakes appear deliciously spongy and fluffy and are ready to serve.

Turkey Pop Up Timer

turkey pop up timer works on Charles law/Credit: Huffington Post

As I previously stated, there are numerous applications of Charles law in our kitchen. The operation of the Turkey Pop Up Timer is governed by Charles Law of Thermodynamics.

The Pop Up Turkey Thermometer exhibits the same phenomenon as Charles’s Law states that “a gas tends to expand when heated.” The turkey thermometer is inserted into the bird.

As the turkey cooks, the gas inside the thermometer expands as the temperature rises. As a result, the turkey thermometer indicates that the turkey is cooked and ready to serve.

Opening Of A Soda Can

A Soda Can/Credit: Wikihow

The next application of Charles law on the list of the top six is opening a soda can. Have you ever noticed that when you open a chilled soda can, there aren’t many bubbles?

On the contrary, when a warm enough soda can is opened, bubbles spill out of the drink. Do you know why? Yes, you are correct. It occurs as a result of the Charles Law of Thermodynamics.

According to Charles’ law, the volume of a chilled soda can decreases due to the low temperature. That’s why there aren’t many bubbles coming out of the soda can.

The volume of a warmer soda can, on the other hand, increases due to the high temperature. That is why bubbles appear in the drink.

Helium Ballon On Cold Day

Helium balloon shrinks during colder days/Credit: Balloonacy

The very last application of Charles law in real life is the shrinking of a helium balloon on a colder day. Everyone knows what a helium balloon is, right?

We all remember as children stepping outside with a helium balloon on chilly days (winter season of course).

Because of the coldness or decrease in temperature, the balloon will shrink slightly. It occurs as a result of Charles’ gas Law.

According to the definition of Charles’ law, as the temperature drops, so does the volume of helium gas inside a balloon. When the same balloon is returned to a worm room, it reverts to its original shape.

That concludes this post. If you like this article, please share it. If you share it, please like it. We’re also on Mix, Twitter, Pinterest, and Facebook.

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