vastzen.blogg.se

1. #Chemical elements with a update#
2. #Chemical elements with a software#
3. #Chemical elements with a code#
4. #Chemical elements with a free#

I'm always looking to update this site and add more information.

#Chemical elements with a code#

If you are interested in advertising on this site, please go to their site and e-mail them or call them, and mention that you want to advertise on Chemical, site code 3794. The banners on this site are managed through Burst! Media, an online advertising broker. If you are interested in products my advertisers have to offer, please click on their banner to find out more.

Recently, I've added advertising to this site in order to make up for the costs I incur because of having this site on its own domain hosting the site on Pair Networks, a fast commercial host, and in order to make a profit from the work I put into this site. I am now using a Java stand alone application to update the site. One of the most important and helpful resources in creating any site is user feedback, something which has helped me maintain this periodic table.

#Chemical elements with a software#

I used numerous software tables, my 8th and 9th grade science textbooks, press releases from the discoverers of some of the heavier elements, and a few software and paper encyclopedias and books. The information in this table came from quite a few sources. The graphics on this site were created using many different software packages. Most of the HTML files you see here were created using the Webber HTML editor. In creating and updating this site, I made use of many computer programs. Since then, the table has changed URLs twice, has been updated significantly, and increased in popularity from only 50 visitors/day to as many as 7000 visitors each day and climbing! Creating The Site The next month, my periodic table won the "Navy/Marines Distinguished Achievement Special Award" at the 40th Piedmont Region III Science Fair. This science project then went on to the school science fair, where it won first place in the newly formed "Computer Science/Mathematics" category. At the time of its creation, there were no more than 5 periodic tables on the web. The original table was created in that month, and was turned in and presented to my class on Feb. I began working on this table as soon as my science fair project was approved, which was at the beginning of February 1996. Formerly "The Periodic Table of the Elements on the Internet", the site has moved through several servers. Since I "completed" the site for my science fair project in early 1996, I have added more information to each of the element pages, changed the layout of the site to make it easier to use, added different ways to view the table, and made the site more aesthetically pleasing.

#Chemical elements with a free#

Since then, I have continued to update the site in my free time, and the site is now very different from the original design. It's thought that another one of these magic numbers lies just beyond the range of currently known elements, which means we could potentially discover some new elements that are relatively stable and extremely massive.My name is Yinon Bentor, and I created Chemical as my 8th grade science project several years ago. There are believed to be certain numbers/ratios that are inherently more stable. Hence, larger atoms become more unstable. The ratio of neutrons to protons gradually increases to try to compensate, but this results in the neutrons getting more unstable themselves, resulting in more opportunity for weak forces to destabilize them. With all of that to consider, as you get larger and larger nuclei with more protons, the electromagnetic forces increase, as well as the distances in the nuclei, putting more strain on the nuclear forces holding it all together. Neutrons will help add to this nuclear force, but they tend to become unstable when they get into too great of concentration and the weak force will cause them to decay into protons. Fusion allows these protons to get close enough together for the stronger, yet short ranged, nuclear force to overpower the electromagnetic force. The electromagnetic force of the protons wants to push them away from each other. There are several forces at work inside the nuclei of atoms.