The following technical report will explain the production and implications of modern ski poles. It will also show the individual parts and materials that make up ski poles and explain the purposes and principles of each part. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original Essay Winter sports have adapted as sports grow in size and as technology improves, so has aid for winter athletes. Skis were not originally used with poles, but as the skill of the sport and recreational use increased, the need for improvements was obvious. Ski poles give the athlete greater balance and propulsion and are used for alpine skiing, powder skiing, ski racing and cross-country skiing. The poles provide extra support otherwise not obtainable with your hands alone. The tips of the ski poles are the most important part of the pole and is the part that enters the snow, they are sharp enough to dig into the snow to create friction which can be used to push the user forward but they are short enough to be removed easily and allow continuous movement. The tips are very useful for being able to push yourself forward to increase speed, move when you are not on a track and be an anchor when you are on a track. Ski poles vary in length, shape, and materials, mostly based on price and skill level. Depending on the type of ski the pole is used for, the different type of pole needed, some have larger ski poles for better grip, others are lighter for greater speed and some are bent to maximize the strength/power ratio, regardless. they ultimately serve the similar purpose of helping the skier ski. The history of the ski pole dates back to early 3623 BC and was originally intended to aid in balancing, braking and turning. They were also used to aid them in hunting. They were made of bamboo and pine wood. The first metal ski pole was patented in 1933 and was to use a steel handle, this was made by a man called John B. Dickson, but was later replaced by the lightweight aluminum design, by Edward L. Scott in 1959. The ski pole has since progressed, and the most technologically advanced material used is carbon fiber, which relies on the lightweight strength of aluminum poles, but comes at a high price, so the average consumer typically chooses aluminum poles. The development of automated manufacturing processes has increased the speed with which poles can be mass produced and sold. For example, sticks travel through rollers which apply pressure to straighten them precisely, this is done at a high speed and requires little human input, resulting in great accuracy and low costs. Ski poles need to be made to last as the average skier buys a pair and only replaces them if they get too tall for them or are looking for an upgrade. This means that ski pole manufacturers need to attract the seller as they are likely to buy only one pair. This means high-quality rubbers for the handle, hardened aluminum for the shaft, and a durable carbide tip to prevent wear. Mechanical, electrical and electronic engineering qualifications are required for the different parts of the assembly process. The process by which aluminum is mined and created can be very harmful to the environment and is a factor in global warming. Since aluminum is not naturally present in the environment, the "heroult" process uses an electric current to” -.