Web20+ topics with 125+ questions. Designed for the OCR A Level Chemistry syllabus. Get started. WebOCR A-level Chemistry is a qualification in the UK designed for students aged 16 to 18. It is a two-year course that covers a wide range of topics, including organic, physical and inorganic chemistry. The course aims to develop students' understanding of fundamental chemical concepts, as well as their practical skills, analytical and problem ...
Infrared Spectroscopy A-Level Chemistry Revision Notes
WebFormula Sheets - A Level and GCSE. * Bookmark this page for quick access to AS Level Formulas, A Level Formulas and GCSE Formulas and Data Sheets during your study and revision of A Levels and GCSE examinations. * Cherry Hill Tuition presents a list of all the formula and data sheets for the GCSE and A Level exams for Maths, Chemistry and ... WebAS Level. Our A Level Chemistry A qualification is a content-led course designed to develop theoretical and practical chemistry skills, knowledge and understanding. Specification code: H432. Qualification number: 601/5255/2. First teaching 2015, with first assessment 2024. cte tools
Level of Response Exam Question Tips - OCR A-level Chemistry
WebWorked example: Identify the functional groups in the molecule C6H12O2, using the infrared spectrum given below. (2 marks) Infrared (IR) Spectroscopy. Answer: Signal at 3230-3350 shows an O-H (alcohol) (1) and C=O at 1680-1750 (1) There are separate -OH and C=O bonds in the molecule, so it is not a carboxylic acid. WebThe infrared radiations refer to the part of the electromagnetic spectrum between the visible and microwave region. This spectral region is generally subdivided into three portions, near-infrared (14,290 – 4000 cm-1), mid-infrared (4000 – 400 cm-1), and far-infrared (700 – 200 cm-1). The range of numbers represents wave number (cm-1). WebThe reaction of group 2 metals with oxygen follows the following general equation: 2M (s) + O2 (g) → 2MO (s) Where M is any metal in group 2. We can see this is a redox reaction by looking at the changes in oxidation number of the metal, M, and oxygen. M = 0 → +2 so the metal has been oxidised. O = 0 → -2 so the oxygen has been reduced. ctet online or offline