Basketball is a favorite sport to many Americans. It is a sport that takes strength, determination, hand-eye coordination and many other challenging aspects. All of this skill is used to do one thing, put the ball in the hoop. The ball itself is surprisingly very complex and takes a while to be comfortable with it. Helium is a lighter than air gas. It has a 4.00260 atomic mass while air or oxygen has a 15.9994 atomic mass . According to Jefferson Lab editor Thomas Jefferson National Accelerator Facility “Helium, the second most abundant element in the universe, was discovered on the sun before it was found on the earth.” (2017,[online]). Oxygen is one of the most common gas and every living thing needs it to live. “Oxygen is written as …show more content…
crafting the cover of the balls (has synthetic laminated covers and leather covers) , 4. final testing, inspecting, and packing. The process is about a two weeks long and takes a lot of factories to make one ball. The ball comes out of some factories filled with air of. Some balls require manual inflation with a hand pump or foot pump. Kinetic energy is the energy that a body possesses by virtue of being in motion. Everything in motion has kinetic energy. When a basketball hits the ground the kinetic energy travels through the ball and reacts to the pressure causing the ball to bounce. In conclusion a basketball may look sample but it’s is very complex and can be very hard to manage. This project will prove for once and for all if basketballs bounce higher with or without helium. “Kinetic energy is a property of a moving object or particle and depends not only on its motion but also on its mass.” stated britannica editor Erik Gregerson. (2015,[online]) Digital cameras are very high-tech equipment. Most people have them in their
How does kinetic and potential energy have anything to do with the game of basketball? It turns out there is more about it than you would think. What is kinetic and potential energy you may ask. Kinetic energy is when energy that a body possesses by making it be in motion. The energy possessed by a body by virtue of its position relative to others, stresses within itself, electric charge, and other factors. Some of the ways kinetic and potential energy are used in basketball is: dribbling, shooting, and passing. We will start out with dribbling. When you push down the ball the ball is gaining speed and motion to the floor that is kinetic energy. When the ball pounces up that is potential energy. When you shoot the ball you do more than just
Physics takes part in our everyday lives without us even recognizing it. In simple every day functions like when we walk, how our vehicles function properly, and even how we play sports. We go on each day with no recognition of physics until it is pointed out to us. The concept of physics is the study of fundamental structures and interactions in the physical universe. We learn physics to get a better understanding of the universe and the objects in it (Ostdiek). Now, that I have given you a brief description of what physics is and why we learn it, I am going to tell you how physics applies to shooting a basketball.
Why does a basketball bounce higher than a bowling ball? Because it is made of different materials. A basketball is inflated with air and made with a rubber covering that has a high bounce factor. Bowling balls are made out of hard materials that don’t bounce. Why is bounce good for a basketball and not so good for a bowling ball? Using a baseball to play basketball or a bowling ball to play tennis doesn’t make sense. Different sports require the height from which the ball is dropped the ball’s level of ignition temperature the surface upon which the ball is bounced. The higher the ball is above the ground, the more its potential energy. As the ball is dropped and gravity forces it downward, the ball accelerates and gains speed. As the ball falls through the air, its potential or stored energy is converted into kinetic energy. The longer the fall, the more kinetic energy it gains and when it hits the ground, it bounces higher. As a ball bounces, it warms. An inated ball, like a basketball, bounces higher and faster when the temperature is warmer. This is because the distance between the air molecules in the ball increases, helping the ball maintain its round shape when it hits the ground. On cooler days, the distance between the air molecules gets smaller, causing the ball to be less inated. So, it attains more when it hits the ground. A lot of scientific research goes into developing the right bounce for the right ball. Several other factors affect the way a ball bounces.
Have you ever played basketball or thought about playing basketball? Over the years, many people have wondered how to play basketball or what are the key things to be able to play basketball. The three key things to playing basketball are dribbling, shooting, and passing.
The game of basketball is beautiful thing. With the right chemistry and connection between teammates it is something like poetry in motion. The game has developed a great deal since its start up in 1981. Newly developed rules and regulations overtime have helped build and shape the game as we know it today. Now, the game of basketball is established throughout just about every counrty with many different leagues, however, they all share the same guidelines.
A basketball player must spend a lot of time practicing the different types of dribbles.
“The first basketball games were played with a soccer ball. However, they proved to be unsuitable for dribbling and ball handling” (“Hooptactics” 2). Also, the size of the ball is different for the men and women too. “The men’s ball is thirty inches in circumference and the smaller woman's ball twenty-nine inches in circumference” (“Hooptactics” 2). “In 1929 basketballs were re-designed for more bounce and with concealed laces which eliminated erratic bounces. Balls were were bigger, lighter, and easier to handle” (“Hooptactics” 2). The company Spalding became the most popular basketball maker in the late 1890’s. Now the teams can play with whatever brand they want to. Today the NBA uses Spalding as their game
Basketball hoops for kids are a great way to increase their activity. The truth is that when you buy them one, you may just inspire them to become the next basketball
In order to play basketball the robot would need various sensors and processors in order to achieve various movements needed for this skill. The robot need actuators (electric & hydraulic). These will act as joints for the robot. It would also need sound sensors, which can help with movement. It would also need contact sensors in order to activate certain actions. The robot would also need proximity sensors, pressure sensors, and some form of navigation sensor. The movements the robot needs to be able to performs include: dribbling, passing, and shooting. Each of these movements have multiple ways of performing it. For example, shooting includes lay-ups, jump shots, free throws, etc. The environmental constraints in basketball are hoop height, supporting surface (i.e., outside on concrete or inside on hardwood), previous experience playing basketball.
Unexpectedly, material science in the ball is genuinely insignificant. Rather the material science in b-ball is just fascinating to individuals who truly attempt to separate the craft of shooting, passing, and spilling. What I mean is that the "material science" in b-ball is a result of a man's memory. A man has a kinesthetic memory by they way they recall how they shot from where and with a sure measure of speed. This is accomplished by hours of practice and playing. B-ball then turns out to be all the more a progression of reflexives practices and playing on intuition. On the other hand, understanding the material science of b-ball can be exceptionally valuable to an educator of the amusement. In particular, understanding the material science
Another basic element of basketball is that of passing the ball to another teammate. The physics involved in this process are velocity, momentum, and impulse. The ball has a mass and when it is thrown a velocity of the ball in created. From these two parts momentum is derived, P=mv (Kirkpatrick Wheeler 106). While playing basketball it may be to your advantage to increase or decrease the momentum of the ball when passing to a teammate depending upon the situation.
According to Hyperphysics, the definition of kinetic of energy is: “energy of motion” (“Kinetic Energy”, 2013). The kinetic energy of an object is the energy it possesses because of its motion. The formula that represents kinetic energy equation
The main elements of physics found in basketball that I will be analysing and talking about are Newton 's 2nd law, Gravity, Buoyancy, Drag and the Magnus effect. They all have a large effect separately and also a large effect constructively, effecting one another and also having a large effect on the sport of basketball, effecting the movement of the basketball when passing shooting or dribbling.
Mechanical energy is the energy which is based on either motion or position of an object (Simmons n.d.). Mechanical energy is divided into two types, potential energy (EP) and kinetic energy (EK). Potential energy is the energy of an object based upon its position relative to another. There are many types of potential energy such as elastic and gravitational potential energy. One the most common types of potential energy, which is discussed in this topic, is gravitational potential energy (given by Ep = mgh). Due to this, gravitational potential energy is equal to the work done to move an object (W = Fs). Kinetic energy is the energy of a moving object, (Given by EK = ½mv2). Work done is the change in kinetic energy or the force times the displacement (W = Fs or W = ΔE). An important aspect of mechanical energy is known as the law of conservation of energy, which states that in a closed system that the total energy of that system will remain constant, as energy is not created or destroyed, rather it is changes from one form to another (Nave n.d.). In effects this means that in a system as a ball falls its gravitational potential energy is transferred to kinetic energy, until just before it hits the ground all the potential energy has transferred to kinetic energy. This is not a perfect system and energy will be lost in other forms such as heat, sound and light. But that will be negligible in this experiment.
Basketball is one of my favorite sports, and is one of the most watched and played sports all around the world. In basketball a jump shot makes it easier to score the basketball faster. Jump shots can be a deadly weapon against your opponents, because it comes down to something they cannot stop. An incorrect jump shot will have more miss shots than made shots, but a correct jump shot will have more made shots than miss shots. Everyone wants a correct jump shot, but sadly a correct jump shot isn’t given to anyone, everyone has to put in hard work and go through the basic fundamentals to develop a very good jump shot.