Power in Tennis

I didn’t experience anything interesting this weekend, so I have to talk about tennis again. Yesterday, in my tennis lesson, I learned how to hit through the ball more. When my tennis coach says to “hit through the ball”, he means to use your body more to hit a heavier and deeper ball. The most important thing I learned was that by leaning forward when you hit the ball, you can put more power on the ball, which makes it heavier and faster. Leaning forward also gives you more momentum while you are hitting the ball. In addition, it keeps the ball from flying up, which gives it a more direct, straight shot. Another important thing I was practicing was bending down low and staying low while I hit the ball. This also puts more power on the ball because you get more power by using your legs. Last of all, another key to hitting through the ball is setting up quickly and then rotating your body. This creates torque and also puts more power on the ball. All in all, keeping physics in mind while you are playing tennis can really make a difference in how you hit the ball.

Friction in Tennis?

I bought a new pair of tennis shoes that I had never tried before. Of course, all shoes are built differently, so they are going to feel differently too. This shoe in particular rises up high by my ankle and cuts into my foot. I discovered that in combination with this design, the shoe is also kind of stiff and hard in that area. This was not a good combination and resulted in rubbing my skin raw. I felt a pain just in front of my ankle, and I deduced that due to the force of friction between my shoe and my skin, the shoe was rubbing my skin off. I decided that to cut down the friction between my already raw skin and my shoe, I should wear higher socks and put tape over my skin to protect it from the force of friction. Similarly, when I used my coach’s racket one time, his grip was tough because it was made of leather, and it gave me a blister. This is also largely due to the friction between the grip and my hand. My hand hurt the most when I was hitting forehands because that’s when I turn my hand on the grip the most, causing more friction to occur. I never knew there could be so much friction in tennis, and I unfortunately discovered this by getting sores on my hands and feet.

Ice and Water

I witnessed a simple but cool event of physics the other day. My mom always drinks water without ice because she doesn’t like her water being too cold. I, on the other hand, like ice in my water, so when she brought me a cup of water without ice, I asked her to put ice in it. Normally, you would put the ice in first, but since there was already water in the cup, she had to put the ice in after. When she put the cup under the ice dispenser and ice started coming out, water started splashing all over. One can figure out why this happens by using simple physics concepts. The force of a heavy solid, ice, falling on water, a fluid, creates the splash. The ice displaces the water and makes it come up. Ice is lighter and less dense than water, however, if you put it in the cup after the water, the water splashes up because the ice has a lot of kinetic and potential energy when falling from the dispenser into the cup. So by analyzing an event using physics, one can figure out why something happened.

Tennis Strings

In tennis, the type of string, the tension, and the stiffness of the string all play an important role in how you hit the ball. I use two different types of synthetic gut strings, which are a harder type of string than regular gut so that the string lasts longer. I was experimenting with hitting with a softer string but with a higher tension because I wanted to hit the ball harder and still keep it in the court, however, my strings were breaking too quickly. I figured out that a softer string breaks fast because its weaker and having a higher tension also makes it break faster because the string is more stretched, so it breaks faster. I also saw that with the softer string, you could see the string fraying more before it actually broke. This is due to its weak physical qualities, and that’s why it also breaks faster than stiffer strings. I then experimented with my coach’s racket, which has really stiff strings, but my elbow started hurting. I found that really stiff strings don’t absorb vibration very well, so it affects your arm more and can cause more injuries. My coach told me that I shouldn’t use too soft or too stiff strings because I would either break them too quickly or injure myself, so I went back to a string in between the two. I never realized all the physics involved in stringing a racket. The tension, stiffness, and type of string are all important qualities in the strings of your racket.