Attached is a full lesson 5 page worksheet containing a detailed step-by-step method (including how to use the UV-vis), introduction including theory on Beer’s Law, space for students to tabulate and record their results, questions around the topic, answers and sample results. There are a couple of photographs (taken by me when I was trialling this) to help students visualise how things should look when they are carrying out the method.
This can take around 1 hour - 2.5 hour lesson depending on equipment availability and how you wish to deliver it. :-)
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The new year is a time when many people set resolutions or ‘intentions’, however, these can be set at any time in the year and are beneficial towards our personal growth.
Inside this short booklet are ideas of intentions (what habits/things do you want to create or release?) and how to go about choosing them positively (i.e. avoid negatives such as losing weight, how about 'eating healthier foods 70% of the time?)
There are also prompts and ideas for starting your own gratitude journal and plenty of things to complete to get you thinking, including how we can view our challenges in a positive light - what can we learn from them?
This booklet can be easily adapted if you wish to use it with a class, assembly, project, colleagues etc.
Some pointers and ideas to help you devise a method and practical for the new unit 19 applied science unit.
This practical is one of the 4 options for assignment B. I know that the use of IR for quantitative analysis is uncommon, but it can be done.
Find attached a journal article of a similar experiment and a short outline of a method (word doc). Journal is obviously not my own work, I have just uploaded these to help centres devise their own methods for this assignment.
I hope this is helpful for you.
Please take a look at my other resources :-)
I created and wrote this booklet and delivered a session (lasts around 45min-1 hour depending which yoga sequences and meditation you choose to do) to a cohort of stressed out trainee teachers and staff just before the Christmas break. The session was well received and had excellent feedback with several people saying they found it really helpful.
The booklet starts with assessing your level of stress, looking at how you spend your week (divided into 30min sections) - this is a good opportunity to discuss and be able to visualise work-life balance.
The booklet then takes you through many ideas for stress management techniques, with a couple of mini activities including a page introducing the concept of a gratitude journal and a ‘meditation challenge’.
At the end are some books, apps, journal articles and contacts in case people wish to find out more.
I created this lesson for the new unit 19 level 3 applied science, assignment B, spectroscopy. This lesson lasts about 1.5 hours including completion of activities and introduces the students to spectroscopy by recapping the electromagnetic spectrum (I have also included some points in the notes section of the powerpoint which you may wish to discuss).
The data sheet I used with my students was the OCR A A Level Chemistry one (just what was handy in the lab) and the PowerPoint refers to worksheet A which is part of their assignment. This can be found on the Pearson website, along with answers.
I have included a link to a video I created introducing IR spectroscopy, aimed at students :) https://www.youtube.com/watch?v=XxYTIuKYbvc
Laboratory design activity that could be used for an after school STEM club, mini science project, summer project or even a class task. Aimed at school level but can be as simple or challenging as you would like to make it :)
A supporting PowerPoint is attached with ideas for student instructions ie group tasks visiting laboratories, what to focus on/take notes + photos of. This can be quite hands on and you can let students measure things and do conversions, creating keys and grids in their own laboratory design plans, if you have the facility to do so.
Attached is a full introductory lesson created for the new BTEC Unit 7: Contemporary Scientific Issues.
It is activity based, with instructions and answers, a recent case study to get students started, points for discussion, a video on the case study, explanation of terms ethical, environmental, social and economic along with reliability and validity. Gets students thinking about reliability of sources, bias, etc.
Homeworks during the first few months of teaching (and tutorial sessions, if you have these) could include watching documentaries on scientific issues to broaden student’s knowledge of contemporary issues in general. You may wish to select these yourself (from Netflix, Youtube etc.) or ask the students to find 1 each for homework and bring to next lesson (to minimise your workload!) then you can decide which to watch as a class and use as a point for discussion etc.
Link to video introducing Unit 7: https://www.youtube.com/watch?v=AMFkvxYIVfU
This resource is a lesson created for A2 Chemistry OCR syllabus which covers Bronsted - Lowry acids and bases, conjugate acid-base pairs, mono, di and tribasic acids, neutralisation reactions with acid: carbonates, metal oxides and alkalis.
Includes theory, is interactive and has questions and answers. It has step-by-step guides to calculations and refers to OCR Chemistry textbook (states page numbers of summary questions to complete at end of teaching a mini-topic).
Watch me teach the basics of part this topic at ‘PhysChem with Liz’ on YouTube:
weak acids (calculations):
strong acids (calculations): https://youtu.be/NTEa1sBThRg
The first assignment’s lessons planned out and timing of delivery of the other two.
Written in a SOW format. Could be used as lesson plans (depending what you and your centre require). :-)
Attached are step-by-step calculations with equations, ratios, units etc which were created for the new unit 19 in the level 3 applied science course (new from 2016). The calculations are for the determination of bicarbonate in bottled water, the amount of copper in brass and the amount of iron in iron tablets.
There are 3 stages to the bottled water practical, the end answer states the concentration of bicarbonate in water (tap water was used to save money!) in moles per decimetre cubed.
This bundle includes an assignment brief (created by me), lesson on thermodynamics and feasbility (can be easily adapted for what level/content you would like to teach) and answers to the last 4 assignment questions. This was created for a level 4 course where I taught chemistry to biology apprentices (ages 18+). The title of the unit was ‘chemistry for applied biologists’ and this is one of 4 assignments set in that unit.
It could also be used for A2 Chemistry as there are some worked examples and practice questions on Gibbs free energy and 2 redox practicals which include half equations and observations.
This contains a (relatively!) exciting PowerPoint lesson around what can be a boring and tedious topic - risk assessments and safety. It includes case studies and scandal, what can happen when we are not aware of the risks involved. This is suitable for any science course at any level
I have also included a very short lesson on authority and accountability i.e. academic fraud, this is also suitable for any course at any level. It was initially created for the old BTEC level 3 applied science, but is not specific to this :)
Student worksheet including introduction, method, space for them to record results, structured calculations and error analysis.
Created for the new BTEC L3 spec, unit 19 Practical Chemical Analysis.
Can also be used for A Level Chemistry, HNC or other analytical science courses.
Includes:
student worksheet with space to include results, readings and observations for each of the 3 stages, clearly labelled.
3 stage method, teacher and technician notes
structured calculations and answers.
This resource is a full lesson created for A2 Chemistry OCR syllabus which covers Kp, partial pressure and mole fraction. Includes theory, is interactive, plenty of questions and answers. Clear step-by-step guides to calculations.