Orange Buoyancy Kids’ Science Experiment

Looking for a quick kids’ science experiment that’s sure to wow little scientists?! This simple buoyancy activity requires just a few common household supplies. Kids will love learning why things sink and float in this easy, hands-on experiment!

Follow the simple step-by-step below and then grab 30 more easy-to-follow science experiments kids will beg to repeat (plus a no prep science journal to keep track of their results!) in our shop or on Teachers Pay Teachers!

Playing in pools, floating down rivers, and bobbing about the ocean in their PFDs…

This summer has given us plenty of opportunity to see buoyancy at work in everyday life.

My kiddos loved figuring out just what helps keep them afloat with this oh-so-simple twist on the classic sink or float experiment.

I loved that this experiment took mere minutes to complete!

Getting Ready

This experiment was ridiculously easy to set up!

I grabbed a tall glass vase (a large bowl works, too), an orange and water and we were ready to roll.

Kids’ Science: Sink or Float?

I called both my 3 and 5 year-old over and asked them if they thought the orange would sink or float in water.  They both felt the orange and said that it was heavy and would sink.

Next, I had each child pour water in the vase until about 3/4 full.


Then, we plopped the orange in to see if their prediction was correct.

The kiddos were pretty amazed to find out they were wrong and the orange actually floated!


After they tried to sink it by pushing and poking it under the water, I removed the orange and asked them to peel the orange.


Then, I asked them if they thought the peeled orange would sink or float.  They both thought it would still float because it would get smaller with the peel removed.


Wrong again!  The orange sank to the bottom.

My kiddos were thoroughly confused.  They continued to take the peeled orange in and out of the water to see if they could somehow get it to float again.

The Science Behind It

Why is it that a peeled orange sinks even though it is lighter than an unpeeled orange?  The secret lies in its peel!

Buoyancy is the tendency of an object to float or sink in water or any other fluid.

Whether an object is buoyant is determined by Archimedes’ Principle which states that any object in a fluid is buoyed up by a force equal to the weight of the fluid displaced by the object.

When the orange is placed in water, there are two forces working on it in opposite directions: gravitational force pulls the orange down while buoyant force pushes it up.

Gravity pulls the orange down with a force equal to the weight of the orange, while buoyant force pushes the orange upward with a force equal to the weight of the water that the orange displaced.

If the orange can displace a volume of water that equals (or is greater than) the weight of the orange, then it will be buoyant and float.

While making the orange weigh slightly more, the peel of an orange helps displace enough water to make the unpeeled orange buoyant.

The peel is also full of tiny pockets of air that make the unpeeled orange less dense than water – and the orange floats.

When you remove the peel, the orange no longer displaces enough water to overcome gravitational force. The orange becomes more dense than water and it sinks.


To really make this experiment relevant to my kiddos, I explained that the peeled orange was similar to them in a pool: they sink.

But since their life jacket is made of foam and contains tons of air pockets, when they put it on, they can suddenly displace more water while becoming less dense, and they float.

More Simple Science Kids Will Love

Inspire kids to LOVE science with 30 more jaw-dropping experiments they’ll beg to repeat! Grab 30 easy-to-follow science experiments (plus a no prep science journal to keep track of their results!) in our shop or on Teachers Pay Teachers!

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  1. Puan

    a very nice article. thanks a lot

  2. NAtsumi

    Amazing! *^*

  3. Niek

    Thanks, I will try this in my class today!

  4. OJM

    Cool experiment but I’m pretty sure this is not quite right
    “When you remove the peel the orange no longer displaces enough water to overcome gravitational force, the orange becomes more dense than water,”

    The orange becomes less dense when you remove the peel, yes, but it actually displaces MORE water when it sinks. The orange’s density is greater without the peel, but that’s not *because* of amount of water being displaced. Density is inherent to the object, (density = mass/volume)

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  7. Marty

    Definitely want to do the floating/sinking orange next year for our family’s back to school get together. Hope I don’t forget it. lol

  8. Valli

    Very useful and very simple easy way to explain the kids .. Thanks alot for sharing and first i thought it is hard to explain to kids but atlast it is very easy to explain thankyou.

    • Kimberleigh

      Thank you, Valli! I hope you find hours of inspiration for you and your kids!
      Kimberleigh // Happiness Ambassador

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      Thanks, Minase!



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Hi, I’m Malia.

I LOVE helping Pre-K, Kindergarten and First Grade teachers save time, stay inspired and give EVERY student bigger results. I’m so glad you’re here!