I produce mainly science resources. All of them have been taught by myself and I include a short comment on my experience of using the resource at the end of the description.
I don't like to charge for my resources, BUT I am currently trying to put myself through a masters course on a part-time teachers wage. Once I'm through, everything becomes free!
I produce mainly science resources. All of them have been taught by myself and I include a short comment on my experience of using the resource at the end of the description.
I don't like to charge for my resources, BUT I am currently trying to put myself through a masters course on a part-time teachers wage. Once I'm through, everything becomes free!
This lesson covers:
Stopping distances (definition and how to calculate)
Investigation to factors affecting reaction time
Factors that affect stopping distances
Pre-starter: code break keywords (decode sheets included in pp)
Starter: true or false quiz
Investigation: how are reactions times affected by distractions?
Assessment: peer-assessed worksheets, review of progress stars.
Plenary: create venn diagram.
Homework: create an infographic
To print before lesson: code breaker handouts, worksheets (high and low ability included with answers).
With the practical, let them do a few tests without recording data so they get used to the set up. This way, the results are better.
This lesson covers:
Hooke’s law (concept and equation)
Investigation in to stretching springs
Plotting graphs
Pre-starter: code-break the keywords
Starter: Discussion about applying knowledge of springs to other areas of physics
Assessment: questions in power point, extension worksheet, graph plotting task and homework.
Extension sheet: stretching springs questions
Homework: analysing a bungee jump exam style question
To print before lesson: code breaker sheets (in pp), homework sheets, practical sheets and extension worksheets.
This was originally taught to low ability, so the graph-plotting segment is very carefully laid out step by step. I have found a lot of success for those students who have struggled to plot graphs in the past. To aim this at a higher ability, substitute this section for the extension worksheet.
This lesson revises:
Speed and velocity
Distance and displacement
Acceleration
Graphs of motion
Pre-starter: Unscramble the anagrams task
Starter: recap speed calculations
Main activity: carousel of tasks
Plenary: summarise the lesson (5-5-1 task)
Homework: Creating exam style questions
To print prior to lesson: carousel station instruction sheets (5 different sheets).
This lesson is based around 5 carousel activities. They are a mixture or mini-investigations (easy to set up and carry out) and practice calculations.
I found this lesson to be very successful, with even the very challenging students becoming engaged.
This power point presentation covers:
Newtons first and third laws of motion
Free-body diagrams
Resultant forces
Pre-starter: code-break keywords. Decoding sheets are on the first slide ready for printing.
Starter: sink or float activity. Requires a large-ish tub of water and objects to place in.
Assessment: GCSE exam questions with answers included at the end.
Content covered:
Definitions for distance, displacement and speed
Relevant equations
Pre-starter: code-break the keywords
Starter: discussion about distance record holders
Assessment: peer-assessed worksheet (differentiated), plenary comments, homework
Plenary: lesson feedback
Homework: research and questions
To print prior to lesson: codebreaker handouts (included in pp), worksheets (differentiated) and homework sheets.
I found this lesson to be particularly accessible for low ability students since it contextualises the concepts and the activities are built around peer support (rally coach task).
This lesson covers:
Revisit contact and non-contact forces
Define mass, weight and gravity
Calculate weight (W=mg)
Terminal velocity (2 examples)
Pre-starter: codebreak key words
Starter: sort types of forces into categories
Assessment: questions and tasks included in slides. Homework activity. Plenary task.
Plenary 1: true or false quiz
Plenary 2: summarise the lesson
Homework: QWC exam question.
To print before lesson: slides 1, 2 and 3 as handouts.
A high ability class should be able to get through all of the content in an hour. For lower ability, this can be split in to two lessons at slide 20.
Content covered:
Acceleration (definition, examples and equation)
Displacement-Time Graphs Recap (could be easily edited if this is the first time on this concept)
Velocity-Time Graphs (description, examples, plotting)
Pre-starter: decode the keywords
Starter: Think, pair share activity about acceleration
Assessment: questions/tasks included in slides, plenary activity, progress stars, homework.
Plenary: discussion on what your neighbour has learned.
Homework: plotting velocity-time graph from data collected in lesson
To print before lesson: code-breaker handouts, velocity-time activity handouts (challenge and support versions included).
Students will also need access to stopwatches for the video.
I usually split this across 2 lessons since it is a lot of content. A good place to split is after slide 15. I found students to be very engaged with the acceleration record-holders discussion since it provides good context. This section is also good for clarifying the difference between velocity and acceleration. They especially enjoy the hat-throwing fungus! Motion graphs section is very carefully laid out and emphasises the differences between displacement-time and velocity-time since I find students often struggle here. The velocity-time activity is very fun, but I have found it needs very careful explaining for some students.
Content covered in this lesson:
Definitions for keywords associated with forces causing changes of shape.
Experiment: stretching strawberry laces
Pre-starter: decode keywords
Starter: odd one out activity
Assessment: graph plotting task, homework task, plenary task
Homework: question sheet (short)
To print before lesson: experiment handout, homework and code breaker sheets.
For higher ability groups, more focus should be put on presenting results. This lesson works as a nice introduction to Hooke’s law.
Lessons included:
Distance, Displacement and Speed
Distance, Velocity and Acceleration
Movement and Position Revision Carousel Lesson
Resultant Forces and Newton’s 1st and 3rd Laws
Stopping Distances and Reaction Time
Mass, Weight and Terminal Velocity
Squashing and Stretching
Hooke’s Law
Content Covered:
Definitions for distance, displacement and speed
Relevant equations
Acceleration (definition, examples and equation)
Displacement-Time Graphs Recap (could be easily edited if this is the first time on this concept)
Velocity-Time Graphs (description, examples, plotting)
Revision of above content
Newtons first and third laws of motion
Free-body diagrams
Resultant forces
Stopping distances (definition and how to calculate)
Investigation to factors affecting reaction time
Factors that affect stopping distances
Revisit contact and non-contact forces
Define mass, weight and gravity
Calculate weight (W=mg)
Terminal velocity (2 examples)
Definitions for keywords associated with forces causing changes of shape.
Experiment: stretching strawberry laces
Hooke’s law (concept and equation)
Investigation in to stretching springs
Plotting graphs