Photo by Tom Humphrey
Making my way to the library the other day, I came upon an intriguing spectacle: a dozen students from physics 101 firing eggs across the Great Lawn with a makeshift slingshot.
The students were applying the principle of conservation of energy to a devilish problem: determining the minimum angle of trajectory required to be sure that an egg will actually smash when it hits the ground.
At first glance, the experimental apparatus—some sturdy forearms and a length of surgical tubing—seemed rather primitive. But in physics, as elsewhere, appearances are deceiving. It turns out that this investigation requires just four measurements: the angle at which the egg is flung, the distance between launch and landing, the mass of the projectile, and the average length of the grass. Armed with these numbers, the students can calculate the force with which the egg strikes the sod.
The first two attempts yielded no rupture, much to the students’ dismay (recent rains, they theorized, must have softened the ground). On the third try, however—at an angle of 52 degrees and a horizontal displacement of 59 meters—the egg was finally vanquished, to huzzahs from the assembled onlookers.
Trooping back to the lab, the students then embarked on the next stage of the experiment—piling iron weights atop an egg nestled in foam padding to determine the amount of force necessary to break it (a cruel science, physics). Finally, they compared this vector with the one derived from Newton’s second law of motion.
Fun? Yes. Frivolous? Definitely not. The experiment demonstrates the conservation of energy, spurs debate on the best way to understand collision, and poses questions about structural integrity. Talk to a ºìÌÒÊÓƵ physics major about this subject for any length of time, and you’re liable to wind up discussing bicycle helmets, cannonfire, the whether the Coriolis Effect played a role in the Battle of the Falkland Islands, when British shells kept landing astern of their German targets.
I’ve always admired ºìÌÒÊÓƵ’s approach to physics, epitomized by Prof. Nicholas Wheeler ’55 (). “My ambition was to get to the bottom of things,” he says. “At the time I still supposed that was possible, but the bottom was far deeper than I imagined.”
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