Dr. Dave Science

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Archive for the ‘Sports’ Category

The Physics of Free Running

Posted by drdavescience on May 21, 2008

Good news everyone, I am officially Dr. Dave! I spent the past few months writing my Ph.D. thesis, and I successfully defended my dissertation. I apologize for not posting regularly, but I am sure you understand. 

 

Thesis Break, Bond Style! 

While I was writing my thesis, I would occasionally take a break and watch a movie. One of the movies I watched was Casino Royale, the most recent entry in the Bond franchise.

 

 

Chase scenes are standard in Bond movies and Casino Royale had its fair share. My favorite is when Bond pursues a bomb maker, Mollaka, on foot through a construction site in Madagascar.

 

Below is a link to the scene posted on YouTube. The clip is about 9 minutes long.

 

In this foot chase, Bond and Mollaka have two different styles. Mollaka is graceful and efficient; Bond is aggressive and haphazard. It is clear that Mollaka has an advantage over Mr. Bond.

 

Free Running

Sébastien Foucan, the founder of a sport called free running, played Mollaka. Free running is a sport that is dedicated to efficient motion between two points.

 

During the foot chase, Mollaka knew how to use his environment to keep him moving forward. While his jumps were very fancy to watch, he was clearly using the laws of physics to his advantage.

 

Rolling, Rolling, Rolling

Free running reminds me of martial arts. I have several friends who perform similar acrobatic feats during martial arts demonstrations. The core philosophy of many martial arts is to redirect energy, and I imagine the same holds true for free running.

 

A basic move taught in many martial arts is rolling. A proper roll is a useful move that is designed to dissipate energy in a fall or jump.

 

Look at this YouTube video showing how rolls are done. The people in this video clearly know what they are doing. Please don’t try this at home without the proper equipment. You can easily injure yourself.

 

The examples toward the end of the video show why the roll is a great move–it helps the free runner maintain his forward momentum after a jump and places him on his feet.

 

The Physics of Going Splat 

In the YouTube examples above, we can see how rolling is very useful to free runners. Let’s learn about the physics of this motion.

 

Let’s imagine we have a ball of pizza dough. What happens if you throw it against the wall? I would predict that it would go splat and flatten. Why?

 

When the dough collides with the wall all the energy of motion–called kinetic energy– is instantly absorbed by the pizza dough. Let’s think about what happen in another example.

 

Now imagine that we roll the ball of dough on the ground towards a wall. What happens in this case? The ball of dough will gradually lose speed before hitting the wall. In this example, the dough is more likely to maintain its shape because the energy is lost gradually as it rolls rather than suddenly at impact.

 

In both cases, a similar amount of energy is lost. What matters most is the amount of time required for the dough to slow down. If it the dough stops suddenly, then it will flatten. If the dough slows gradually, it will retain its original shape.

 

Over the Handlebars 

While pizza dough is a good example, let’s think about how this works on a human body. The following is a true story.

 

A friend of mine was riding his bike in the park. Suddenly, a child jumped in front of him, causing my friend to swerve and avoid the child. Unfortunately my friend hit a bench and went flying over the handlebars.

 

 

Being a black belt martial artist, he instinctively curled up into a ball and rolled on the pavement; he rolled a few times before coming to a complete stop.

 

The Physics of Not Going Splat 

My friend was able to avoid significant injury because was able to roll and gradually dissipate his kinetic energy. Imagine what would have happened if he landed hard onto the pavement. His body would have suddenly impacted the ground and instantly absorbed all kinetic energy. If you have ever experienced a crash, then you know this is a painful experience.

 

In the example of pizza dough mentioned above, a direct impact caused the dough to lose its shape. On the human body, a sudden impact would cause significant injury, like cuts and bruises, even broken bones. Ouch!

 

Whether you are a martial artist or a free runner, the ability to move with proper technique helps to prevent injury. By understanding physics we now know why. Remember, it all boils down to how fast or slow kinetic energy is dissipated.

 

–Dr. Dave

Posted in Fun Facts!, Physics, Sports | Leave a Comment »

Pitching Ace and Physics Master

Posted by drdavescience on March 12, 2008

Physics is concerned with how things move, energy, space, and time. In an everyday sense physics explains how planes fly, how electricity flows from an electrical outlet to a light bulb, and even how glasses help people to see better.

 

baseball.jpg

Perhaps one of the coolest everyday example of physics is in sports. Since spring is around the corner, I will focus on baseball.

I think pitchers are masters of physics. They know how to throw a ball with great speed and precision so that it will land in the strike zone.

Let’s take a closer look at the pitching process.

pitcher1.jpeg

During the wind-up, a pitcher uses his body to transfer energy to the ball. This energy is called kinetic energy, the energy of motion.

pitcher2.jpg

As the baseball is being released, pitchers sometimes add some spin. This can cause the ball to take a curving path, rather than straight path, which can confuse the batter.

Breaking it Down

We know from experience that if we hold a ball and simply let it go, gravity will pull it down.

We also know that when we throw the ball straight ahead, the ball will fly forward while arcing downwards. If you think about it, there are two things the affect how the ball flies, the throw and gravity.

Now, if you throw the ball, but this time you release it with a spin, the ball will fly forward, arc downwards, and curve in the direction of the spin. In this case the throw, gravity, and the spin affects how the ball flies.

The best way to understand this concept is with a few good examples. A friend suggested this impressive wiffleball pitching video because it clearly illustrates the effect of spin on pitching. Keep your eyes on the ball!

The pitchers in this video are able to get such amazing curveballs because the plastic wiffleball is very light and more easily affected by spin than a heavier baseball.

 

When baseball season starts-up, do not forget to root for your favorite physics master, I mean pitcher!

-Dr. Dave

Posted in Physics, Sports | Leave a Comment »

How do NFL quarterbacks throw footballs far and accurately?

Posted by drdavescience on September 13, 2007

The NFL regular season is in full swing and hopefully your favorite team is showing their talent on the field. Are they Super Bowl bound? Only time will tell.

In football, one of the most exciting plays is the “Hail Mary” pass. This is when a quarterback throws the football really far (50 yards or more, that’s 45.72 meters for my metric readers) and somehow the receiver catches it.

Check out this YouTube example of Doug Flutie’s famous Hail Mary pass.

Is the “Hail Mary” muscle power or physics?

I still remember when I learned how to throw a football. At first, my throws were wobbly and the football did not travel very far. My dad showed me how to throw the ball in a spiral, and with a little practice I was throwing the ball much further.

Although I was throwing the ball with the same strength, I realized that spiraling helped the football fly better.

Naturally, I wondered “Why does spinning help a football fly better?”

Spin stabilization

By throwing a football with a spiral (no wobbles at all), the ball spins around an imaginary line that traces its path through the air (the axis of flight). This reminds me of a gyroscope.

What is a gyroscope?

A gyroscope is a wheel on an axle that spins really fast. The spinning allows it to resists external forces (like wind or sudden movements). The faster a gyroscope spins, the more stable it becomes. Take a look at these videos I found on YouTube.

Notice how this toy gyroscope stays standing while it spins, even when it is turned!

This is another cool video showing how gyroscopes resist external forces. The spinning wheel prevents it from falling over. Does this make sense?

The gyroscopes in these videos are spinning at about 200 times every second!

Did you know that gyroscopes are used in airplanes, spacecraft, and even the Hubble Space Telescope (shown below)?

hubble.jpg

In the Hubble Telescope, advanced gyroscopes are used to help determine what part of space it is pointed at. Remember, in the absence of gravity, there is no up or down!

Rockets and Artillery

When rockets were first used in combat in the 1200s, they had a tendency to veer off course. It was not until the middle 1800s when people realized that if they spun the rocket as it flew, it would fly more straight and true.

In fact this idea has also been applied to artillery. The barrel of the big guns on battleships had grooves inside them that would spin the shell when it was fired. This greatly improved accuracy of the shell as it was now less susceptible to the effects of the wind.

This is a picture of the USS Wisconsin. The guns on this ship shoot shells that are 16 inches wide!

usswisconsin.jpg

Putting it all together – Spinning the Hail Mary

quarterback.jpg
When a football spins as it travels through the air, it will fly a more stable path and be able to resist the effects of the wind. This makes the throw more accurate.

Also, the faster the ball spins, the more stable it is during its short flight from the quarterback to the receiver’s arms.

Now you know how NFL quarterbacks can throw a ball accurately!

While strength is important for providing the force behind the throw, physics plays a significant role in both distance and accuracy.

That’s cool.

-Dr. Dave

Posted in How does it work?, Sports | 1 Comment »