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The Math Behind the Work-Energy Theorem

As an engineering expert I’ve applied the Work-Energy Theorem to diverse situations, but none as unique as its most recent application, the progress of Santa’s sleigh. Last week we saw how Santa and his reindeer team encountered a wind gust which generated enough force to slow them from an initial velocity of v1to a final velocity, v2, over a distance, d. Today we’ll begin using the Work-Energy Theorem to see if Santa was able to keep to his Christmas delivery schedule and get all the good boys and girls their gifts in time.

Before we can work with the Work-Energy Theorem, we must first revisit the formula it’s predicated upon, de Coriolis’ formula for kinetic energy,

KE = ½ × m × v2 (1)

where, KE is kinetic energy, m is the moving object’s mass, and v its velocity.

The equation behind the Work-Energy Theorem is,

W = KE2  KE1 (2)

where W is the work performed, KE1 is the moving object’s initial kinetic energy and KE2its final kinetic energy after it has slowed or stopped. In cases where the object has come to a complete stop KE2 is equal to zero, since the velocity of a stationary object is zero.

In order to work with equation (2) we must first expand it into a more useful format that quantifies an object’s mass and initial and final velocities. We’ll do that by substituting equation (1) into equation (2). The result of that term substitution is,

W =  × m × v22 ] – [½ × m × v12] (3)

Factoring out like terms, equation (3) is simplified to,

W = ½ × m × [v22  v12] (4)

Now according to de Coriolis, work is equal to force, F, times distance,d. So substituting these terms for W in equation (4), the expanded version of the Work-Energy Theorem becomes,

F × d = ½ × m × [v22  v12] (5)

Next time we’ll apply equation (5) to Santa’s delivery flight to calculate the strength of that gust of wind slowing him down.

 

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