Estimating the Speed of Light with Chocolate

Kitchen Physics 101

What We’re Trying to Do

We’re going to estimate the speed of light (c) using nothing more than:

  • A microwave oven
  • A ruler or measuring tape
  • A microwave-safe plate
  • And a chocolate bar (or marshmallows, or cheese—anything that will melt unevenly)

How It Works

Microwaves cook by emitting electromagnetic waves—basically, waves of energy. These waves bounce around inside the oven, creating hot spots (where wave peaks and troughs align) and cold spots (where they cancel out).

Typically, your microwave’s turntable spins the food to distribute the heat evenly. But if we stop the turntable, the candy bar will melt only at the hotspots, and those hotspots are half the wavelength apart.

Using the frequency of your microwave (usually printed on the back, around 2.45 GHz) and the measured wavelength, we can estimate the speed of light using the formula:

speed_of_light = frequency * wave_length

Step-by-Step: The Chocolate Speed of Light Experiment

What You’ll Need:

  • 1 Microwave oven (with turntable off or plate removed)
  • 1 Flat microwave-safe plate
  • 1 Large chocolate bar
  • 1 Ruler or tape measure (cm is easiest)
  • A calculator or smartphone

Step 1: Disable the Turntable

If your microwave has a “turntable off” button, press it. If not, just remove the rotating plate and put an upside-down mug in the center. Place your chocolate bar plate on top, so it doesn’t rotate.

If your microwave spins no matter what, try blocking the spinning with a microwave-safe cup.

Step 2: Microwave for a Few Seconds

Heat the chocolate on low power until it starts to melt in some spots but not others (10–30 seconds). Don’t overdo it. You just want a visible pattern of melted streaks.

Step 3: Measure the Distance Between Hot Spots

Take out the plate and use your ruler to measure the distance between two melted spots (they’ll form a line across the chocolate). These are half a wavelength apart.

For example, if hot spots are 6 cm apart, then the wavelength is 12 cm = 0.12 m.

🔬 Step 4: Look Up the Microwave Frequency

Most microwaves operate at 2.45 GHz. That’s 2.45 × 10⁹ Hz.

Step 5: Estimate the Speed of Light

Using the formula in our example

speed_of_light = 0.12 * 2.45 * 10 ** 9

We get: 294,000,000 m/s.

The actual speed of light is 299,792,458 m/s, so we are within 2%, and you have not left your kitchen.

What This Teaches Us

  • The invisible can be measured with the right tools and mindset.
  • Scientific constants aren’t magic; their impact is everywhere.
  • You don’t need a lab coat to do physics, just curiosity, though an apron and dessert never hurt.

Physics Can Be Delicious

In a world that seems to change every time you turn around (even if you do not check your newsfeed), it’s refreshing to know the universe still has a few fundamental truths. And sometimes you get dessert after the lab work.