![]() Mr Quimby's laboratory equipment practice quiz is very good. is great for Paper 6 revision of chemical apparatus etc. If it doesn't work via Google, use the other link available. If you are keen to revise the properties of individual elements, the University of Nottingham Periodic Table site is a must: The site was recommended to me by a CIE examiner. Topics are reviewed as quizzes in a very colourful way. There is also some useful information relating to Year 10 topics, if you have forgotten them, at this site: I recently included an article in Rego Times and the Periodic Table mentioned is sensational. Sections include revision on atomic structure, chemical bonding, the Periodic Table, acids and alkalis, electrolysis, the reactivity series, extraction of metals and writing formulae and balancing chemical equations. has some fun animations to help you remember some basic points. The site seems to be blocked in China, but you can come and see me to find a way around this (18th Nov. Certainly, if you are tired of doing lots of examinations, you could have a look at this site. The first of these is which is a very good source of questions on many topics included in the syllabus. ![]() I have recently been using a lot of materials for IGCSE revision which I would like to share with you. There are many experiments that you can browse to check the equipment needed or the associated theory. Īnother site which may help you understand experiments better is. Topics include acids and alkalis, chemical reactions and tests, compounds, mixtures and the Periodic Table. Try a quiz and be a star centre forward at the same time. If you want football fun, Canary Zoo is the site for you. It's suitable for all students studying science or chemistry from Year 9-11: Read through the file and see if you can do something constructive to improve your revision technique.Īre you going to reach your target.pdf (239,7 kB) WebsitesĪ good starter for Year 9 might be the Sheppard sofware site with its fun Periodic Table games:Ĭhalkbored is another favourite in the UK and is worth you spending a little time to find out about all its interesting contents. My revision focus sheet asks students whether they are optimising their chances of being successful in the June examinations. ![]() The qualitative analysis sheets below are vital for your studies too. They describe tests for cations, anions and gases. They are used especially for Paper 6 at IGCSE or Paper 3 at A Level. I have only done up to 2010 since no-one has informed me whether they are sensational.Ĥ. Note that the Year 11 Chemistry Manual also contains this information (page 163) in addition to the following link:ģ. If you wish me to update this file, please see me. Specific topics (chapters from Chemistry for You) on Papers 3 and 6 can be checked against each exam during the years 2010 -2006. Inside_igcse_revision_guide.pdf (267,3 kB). The link opens a chapter in the revision guide about bonding: If you wish to find out more about this first, really excellent guide, read on (with a click on the link). They are waiting for you to come and use at any time. You can take the books home to review. See the pictures below to remind you of the publishers' names. If you really aren't keen on using the Internet to help you in your revision, you could always try some of my revision guides. The significance of the obtained results is discussed in detail.1. We briefly overview (a) the derivation of a modified Korteweg-de Vries equation describing the dynamics of few-cycle solitons in a centrosymmetric nonlinear optical Kerr (cubic) type material, (b) the analysis of a coupled system of Korteweg-de Vries equations describing ultrashort-soliton propagation in quadratic media, and (c) the derivation of a generalized double-sine-Gordon equation describing the dynamics of few-cycle solitons in a generic optical medium. Model equations derived by rigorous application of the reductive perturbation formalism are presented, assuming that all transition frequencies of the nonlinear medium are either well above or well below the typical wave frequency. A general quantum model involving an arbitrary number of energy levels is considered. We overview some recent theoretical studies of dynamical models beyond the framework of slowly varying envelope approximation, which adequately describe ultrashort-soliton propagation in nonlinear optical media.
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