An exercise in science reasoning.

The Egg Drop Activity

Begin Activity

This activity involves observing the results of dropping an egg
onto a surface. The size of the egg, the height from which it is
dropped, and the characteristics of the landing surface can be varied.
The effect of these variations upon the the safety of the egg will be
examined.
The activity is accompanied by a collection of questions that target
your science reasoning abilities. These questions are found in the
widget of this iBook. For convenience sake, they can also be found
online at:

http://www.physicsclassroom.com/iPad/pdfs/eggdrop.pdf

10 meters

Experimental Conditions

1-inch Foam

The currently selected set of conditions are hilighted in
red. Click any button to modify the conditions.

Small

Foam Box

Egg Size:

Drop Height:

Large

Run Trial

Landing Surface:

Jumbo

Once satisfied with the selected conditions, click on the Run
Trial button.

1 meter

Hard Floor

5 meters

10.0 m

ZOOM OUT VIEW

Experimental Conditions:

ZOOM IN VIEW

1.0 m

Results of Trial
mass = AA grams = AAA kilograms, ∆velocity = BBB m/s, t =
CCC seconds F = m•∆v/t = (AAA kg)•(BBB m/s)/(CCC s) = DDD N
The egg is ...
Fractured!

Egg Size (mass): AAA (BBB g)
Drop Height: CCC meters
Landing Surface: DDD

Click on the Drop Egg button to run a trial with the stated
conditions. Click on the Change Conditions button to change the
conditions.

Change Conditions

Drop Egg

5.0 m

Repeat Trial

Egg Size (mass): AAA (BBB g)
Drop Height: 10.0 meters
Landing Surface: Box of Foam

Report:
Egg size: AAA grams (AAA kg)
Drop Height: BBB meters
Landing Surface: CCC
Upon impact, the velocity change (∆v) was DDD m/s.
This ∆v took place over a time of EEE seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (AAA kg)•(DDD m/s)/(EEE s) = FFF N
The egg is GGG.

Repeat Animation

Egg Size (mass): Small (40 g)
Drop Height: 1.0 meter
Landing Surface: Hard floor

Report:
Egg size: Small (0.040 kg)
Drop Height: 1.0 meter
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.0040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(4.4 m/s)/(0.0040 s) = 44.0 N
The egg is BROKEN.

Click on the Drop Egg button to run a trial. Click on the Change
Conditions button to change the conditions.

Egg Size (mass): Large (60 g)
Drop Height: 1.0 meter
Landing Surface: Hard floor

Report:
Egg size: Large (0.060 kg)
Drop Height: 1.0 meter
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.0040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(4.4 m/s)/(0.0040 s) = 66.0 N
The egg is BROKEN.

Egg Size (mass): Jumbo (80 g)
Drop Height: 1.0 meter
Landing Surface: Hard floor

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 1.0 meter
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.0040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(4.4 m/s)/(0.0040 s) = 88.0 N
The egg is BROKEN.

Egg Size (mass): Small (40 g)
Drop Height: 5.0 meters
Landing Surface: Hard floor

Report:
Egg size: Small (0.040 kg)
Drop Height: 5.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.0030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(9.9 m/s)/(0.0030 s) = 132.0 N
The egg is BROKEN.

Report:
Egg size: Large (0.060 kg)
Drop Height: 5.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.0030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(9.9 m/s)/(0.0030 s) = 198.0 N
The egg is BROKEN.

Egg Size (mass): Large (60 g)
Drop Height: 5.0 meters
Landing Surface: Hard floor

Egg Size (mass): Jumbo (80 g)
Drop Height: 5.0 meters
Landing Surface: Hard floor

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 5.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.0030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(9.9 m/s)/(0.0030 s) = 264.0 N
The egg is BROKEN.

Report:
Egg size: Small (0.040 kg)
Drop Height: 10.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.0020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(14.0 m/s)/(0.0020 s) = 280.0 N
The egg is BROKEN.

Egg Size (mass): Small (40 g)
Drop Height: 10.0 meters
Landing Surface: Hard floor

Egg Size (mass): Large (60 g)
Drop Height: 10.0 meters
Landing Surface: Hard floor

Report:
Egg size: Large (0.060 kg)
Drop Height: 10.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.0020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(14.0 m/s)/(0.0020 s) = 420.0 N
The egg is BROKEN.

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 10.0 meters
Landing Surface: Hard floor
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.0020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(14.0 m/s)/(0.0020 s) = 560.0 N
The egg is BROKEN.

Egg Size (mass): Jumbo (80 g)
Drop Height: 10.0 meters
Landing Surface: Hard floor

Egg Size (mass): Small (40 g)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam

Report:
Egg size: Small (0.040 kg)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(14.0 m/s)/(0.020 s) = 28.0 N
The egg is FRACTURED.

Report:
Egg size: Large (0.060 kg)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(14.0 m/s)/(0.020 s) = 42.0 N
The egg is BROKEN.

Egg Size (mass): Large (60 g)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam

Egg Size (mass): Jumbo (80 g)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 10.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.020 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(14.0 m/s)/(0.020 s) = 56.0 N
The egg is BROKEN.

Egg Size (mass): Small (40 g)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam

Report:
Egg size: Small (0.040 kg)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(9.9 m/s)/(0.030 s) = 13.2 N
The egg is SAFE.

Report:
Egg size: Large (0.060 kg)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(9.9 m/s)/(0.030 s) = 19.8 N
The egg is SAFE.

Egg Size (mass): Large (60 g)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam

Egg Size (mass): Jumbo (80 g)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 5.0 meters
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.030 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(9.9 m/s)/(0.030 s) = 26.4 N
The egg is FRACTURED.

Report:
Egg size: Small (0.040 kg)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(4.4 m/s)/(0.040 s) = 4.4 N
The egg is SAFE.

Egg Size (mass): Small (40 g)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam

Report:
Egg size: Large (0.060 kg)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(4.4 m/s)/(0.040 s) = 6.6 N
The egg is SAFE.

Egg Size (mass): Large (60 g)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(4.4 m/s)/(0.040 s) = 8.8 N
The egg is SAFE.

Egg Size (mass): Jumbo (80 g)
Drop Height: 1.0 meter
Landing Surface: 1-inch Foam

Egg Size (mass): Small (40 g)
Drop Height: 1.0 meter
Landing Surface: Box of Foam

Report:
Egg size: Small (0.040 kg)
Drop Height: 1.0 meter
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.080 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(4.4 m/s)/(0.080 s) = 2.2 N
The egg is SAFE.

Report:
Egg size: Large (0.060 kg)
Drop Height: 1.0 meter
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.080 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(4.4 m/s)/(0.080 s) = 3.3 N
The egg is SAFE.

Egg Size (mass): Large (60 g)
Drop Height: 1.0 meter
Landing Surface: Box of Foam

Egg Size (mass): Jumbo (80 g)
Drop Height: 1.0 meter
Landing Surface: Box of Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 1.0 meter
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 4.4 m/s.
This ∆v took place over a time of 0.080 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.08 kg)•(4.4 m/s)/(0.080 s) = 4.4 N
The egg is SAFE.

Report:
Egg size: Small (0.040 kg)
Drop Height: 5.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.060 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(9.9 m/s)/(0.060 s) = 6.6 N
The egg is SAFE.

Egg Size (mass): Small (40 g)
Drop Height: 5.0 meters
Landing Surface: Box of Foam

Report:
Egg size: Large (0.060 kg)
Drop Height: 5.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.060 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(9.9 m/s)/(0.060 s) = 9.9 N
The egg is SAFE.

Egg Size (mass): Large (60 g)
Drop Height: 5.0 meters
Landing Surface: Box of Foam

Egg Size (mass): Jumbo (80 g)
Drop Height: 5.0 meters
Landing Surface: Box of Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 5.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 9.9 m/s.
This ∆v took place over a time of 0.060 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(9.9 m/s)/(0.060 s) = 13.2 N
The egg is SAFE.

Report:
Egg size: Small (0.040 kg)
Drop Height: 10.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.040 kg)•(14.0 m/s)/(0.040 s) = 14.0 N
The egg is SAFE.

Egg Size (mass): Small (40 g)
Drop Height: 10.0 meters
Landing Surface: Box of Foam

Report:
Egg size: Large (0.060 kg)
Drop Height: 10.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.060 kg)•(14.0 m/s)/(0.040 s) = 21.0 N
The egg is SAFE.

Egg Size (mass): Large (60 g)
Drop Height: 10.0 meters
Landing Surface: Box of Foam

Report:
Egg size: Jumbo (0.080 kg)
Drop Height: 10.0 meters
Landing Surface: Box of Foam
Upon impact, the velocity change (∆v) was 14.0 m/s.
This ∆v took place over a time of 0.040 seconds.
The force on the egg during the collision was ...
F = m•∆v/t = (0.080 kg)•(14.0 m/s)/(0.040 s) = 28.0 N
The egg is FRACTURED.

Egg Size (mass): Jumbo (80 g)
Drop Height: 10.0 meters
Landing Surface: Box of Foam