Application of nanotechnology in the sports

Among various nanomaterials, CNTs are the most prominent nanomaterial being used in nano-enhanced sporting equipments such as golf shafts, rackets, skis, snowboards, etc. In any case, atomic-sized tech is being used by researchers at Brigham Young University BYU to help monitor and collect data on head trauma.

nanotechnology in sports medicine

Nano Technology: This is the technology and science that deals with the material creation at the molecular level and it can be sprawled into different fields to reinforce them with its advanced characteristics, enhancing properties of the material.

Because of this, sports and their international governing bodies may have a new debate on their hands that walk a moral line.

nanotechnology in football

When compressed, the self-powered foam generates electrical signals that are transmitted wirelessly to a tablet or computer in the hands of a coach or trainer. Many prominent sportspersons are opting to have nano-incorporated sporting equipments to enhance their performances.

Nanotechnology in baseball

Nano clay materials are also used in the linings of footballs as barrier materials which retain the pressure in the ball for longer. In recent times, the sports equipment industry has emerged as a sophisticated yet commercially viable hi-tech industry where advances have revolutionized sports. Where Nanotechnology Can Take Us Above are some additional advantages of incorporated nanomaterials in sports equipment. The biggest share of this market is the segment of ball sports equipment having Therefore, the ultimate goal to be achieved should be to push the boundaries of performance levels rather than pushing the cost of high-tech sporting equipments. Golf In the golfing world, manufacturers have been filling imperfections in club shaft materials with nanoparticles; this improves the uniformity of the material that makes up the shaft and thereby improving your swing. The world of competitive sport is highly influenced by even the minute changes in sports equipment, which could be a matter of winning or losing.

Table 1: Added advantages of incorporated nanomaterials in sporting equipments. Various companies are coming up with more innovative ideas to implement nanotechnology for improving sports equipment even further.

However, it is expected that over a long-term, these products will become less expensive so that each and every sportsperson could afford it. American Football In the NFL, almost every game produces an incident where a player suffers "concussion-like symptoms.

Advantages of nanotechnology in sports

Therefore, the ultimate goal to be achieved should be to push the boundaries of performance levels rather than pushing the cost of high-tech sporting equipments. Additionally, various nanocomposites incorporating CNTs are far superior in terms of strength and durability to other conventional materials used in sporting equipments. For golf balls, technology using chemicals and physical properties in the material of the ball, has been created to help balls redistribute their weight on the fly in order to change slight direction to go where the golfer had intended. When compressed, the self-powered foam generates electrical signals that are transmitted wirelessly to a tablet or computer in the hands of a coach or trainer. Roger Federer won many tennis tournaments with his nano-enhanced Wilson racket, ever since most other professionals use them because of the extra power that they generate. In Formula One Motor racing, where race largely depends on the motor body-weight and type of tyres, lighter-weight and better-wearing nanocomposite products are being seized upon. Changes have been done in the manufacturing of bicycles by introducing the carbon nanotubes into the carbon fibre resin. Resin a binding matrix in carbon fiber is often comprised of carbon nanotubes — a cylindrical nanostructure. So we decided to have a look a some of the top sports where nanotechnology is being used to give athletes a competitive edge: Tennis The first tennis rackets made from high modulus graphite with carbon nanotubes, began to be used in the early s. Martin, PhD. Elsewhere Yachts are now using sails based on new nano fabrics so that they gather more wind and are waterproof. When it comes to professional cycling, every second counts towards the victory. Within the niche of sport equipments, nanotechnology offers a number of advantages Fig.

SNPs also impart flexibility control for skiing, allowing much slicker rides and turns. So we decided to have a look a some of the top sports where nanotechnology is being used to give athletes a competitive edge: Tennis The first tennis rackets made from high modulus graphite with carbon nanotubes, began to be used in the early s.

Application of nanotechnology in the sports

While, nanotechnology-engineered wax is used in wax for alpine and nordic skis. The World Anti-Doping Agency has begun to keep a watchful eye on developments within the science community to ensure fairness in competition. Roger Federer won many tennis tournaments with his nano-enhanced Wilson racket, ever since most other professionals use them because of the extra power that they generate. At what point do we become more machine than athlete? However, being an expensive technology, nano-enhanced sporting equipments cannot be afforded by each and every sportsperson and unless each competent athlete is given the same sporting equipment, it would be unfair and difficult to judge the natural sporting ability and human spirit. Many prominent sportspersons are opting to have nano-incorporated sporting equipments to enhance their performances. In any case, atomic-sized tech is being used by researchers at Brigham Young University BYU to help monitor and collect data on head trauma.

In our own outlook of the sports world, we are developing a need to distinctively separate human athleticism from technological marvel. BMCwhich weighed just grams size 51but possessed times greater tubular strength than steel1.

Nanotechnology in sports ppt

In Formula One Motor racing, where race largely depends on the motor body-weight and type of tyres, lighter-weight and better-wearing nanocomposite products are being seized upon. The World Anti-Doping Agency has begun to keep a watchful eye on developments within the science community to ensure fairness in competition. All together, using carbon fiber makes a bicycle frame not only strong, but effectively light. The global use of wrinkle and stain resistant nanofibers in cost-effective mass-market sporting clothing lines is an excellent example of the future prospects of nanotechnology in the sports equipment industry. This molecular level technology has the ability to change the landscape of sports forever. Because of this, sports and their international governing bodies may have a new debate on their hands that walk a moral line. Swim suits wore by competitors during Bejing Olympics contain coating by water repellent nanoparticles spilled miracles. Nano-enhanced sporting equipments are much more performance-enhancing and superior in terms of strength, stiffness, and durability as compared to conventional sporting equipments. Roger Federer won many tennis tournaments with his nano-enhanced Wilson racket, ever since most other professionals use them because of the extra power that they generate. Various companies are coming up with more innovative ideas to implement nanotechnology for improving sports equipment even further. Additionally, various nanocomposites incorporating CNTs are far superior in terms of strength and durability to other conventional materials used in sporting equipments.

The results showed that the lighter bike produced about a six second differential in favor of the lighter bike.

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Evolution Of Nanotechnology In Sports Equipment