The his website is about the relationship of geometry and architecture specifically measurements. In the 8th slide it talks about how architects use geometry by knowing the angles of the corners in order to build it. It also talks about how architects must use the Pythagorean theorem for measurements of buildings as well. These are some ways architects use Geometry according to this website though theirs a lot more.
In this cite it talks about how buildings are made of shapes and how geometry is the basic building blocks of architecture and nature. An example of this would be the pyramids in Egypt or something more modern like new World Trade Center tower.These buildings are all made appealing using different shapes. The shapes in all of these building are one of the ways geometry relates to architecture.
This is a youtube video about karting and tire pressure. It is an informational video explaining how to get the perfect tire pressure. Getting the perfect tire pressure is important because when the tire heats up, the pressure gets high which causes the tires to lose grip. If you set the pressure to high, the pressure will rise and you will lose tire grip early in the race causing you to lose time. If you set it just right, your tires will have grip the whole race. This video will help because of how important it is to have the perfect tire pressure.
This is the karting tire I use in big racing competitions. This tire is the Le cont Red tire. It is the harder compound of the two Le cont tire compounds. Harder compounds of tires are more often used for junior karting competition, which is what I race. Tires are the most important part of karting as the karts have no suspension meaning tires are the only thing keeping you on the track.
This is the tire pressure gauge I use in my kart racing career. A tire pressure gauge like this when plugged into the tire displays the air pressure in the tire and is able to take hair out of the tire with the push of a button. In karting tire pressure is important because when the tires get to a certain heat the pressure rises and as the pressure rises the tires start to lose grip. Setting the right tire pressure before a race helps a lot during the race.
This chart is much similar to the chart in my module 2 post 1. The difference is this chart refers to a different tire brand and another one of the tires I race with. The lower the number, the softer the tire, but the softer the tire the shorter its life. This chart will help me to figure out how much the compound of tire makes a difference.
This is a tire chart for the tire maker Bridgestone. Bridgestone is a very popular tire brand in karting. As I am focusing on tires for my project, this chart will help because Bridgestone tires are one of the many types I use and it shows the info I need in an organized format. This info shown is the durability of the tire. The softer the tire, the faster the lap time but the less amount of laps the tire will live for. On this chart the lower the number the softer the compound. This will also help because it will help me find out how much difference the compound of the tire makes.
Although the site is titled the geometry of dance, there are actually a lot of examples for how symmetry is involved as well. I wanted to reuse this site because it was becoming quite difficult for me to find other websites that I had’t used already, and I remembered that this site had a lot of great examples. Although this is a slideshow and there are no words, there are a lot of pictures that are easy to visualize and that are pretty self explanatory.
This PDF talks about the mathematics of dance. I only focused on the symmetry portion which actually had a lot of good information. It talked about how Choreographers use
symmetry as a stylistic feature in their dance creations. It also said that in dance all 4 of the symmetries are used. Reflectional, rotational, translational and
glide reactional symmetry.
This power point presentation talked about several different forms of math in general, but once again I just focused on the symmetry portion of it. The power point basically explained that dancers need to be very symmetrical.Often, formations in a dance create reflection or rotational symmetry. Also when dancing with a partner, dancers often use both reflection and rotational symmetry. It also explained that dancers are constantly moving their bodies across the stage so that it reflects the same consistent pattern.