The resources within this shop are innovative yet easily apply-able. They utilise the latest pedagogical research. All resources are engineered around the new GCSE 2016.
The resources within this shop are innovative yet easily apply-able. They utilise the latest pedagogical research. All resources are engineered around the new GCSE 2016.
This a core concept for Edexcel 9-1 GCSE physics. This lesson is aimed at year 8-9 however could be made course specific.
The lessons starts by allowing the student to take ownership of their learning by selecting a title for the lesson. The lesson then moves to let students discover Hooke's law in a structured yet problem based and independent way. The students demonstrate learning with a graph and a short conclusion always driving them to come up with Hooke's Law by themselves. The lesson concludes with a Cloze exit ticket.
The lesson starts by recapping what a force diagram is before looking at examples of force diagrams. There is the a active watch video with HOTS questions to answer. The understanding is assessed via a mini-whiteboard identification of forces. The lesson further assesses understanding with a hinge question an this leads a differentiated activity on force diagrams. The lesson concludes with an exit ticket.
The lesson is aimed at year 8-9 and focuses on efficiency . The lesson encourages the student to work out the efficiency calculation on their own before testing their understanding, the student then complete different tasks (high quality differentiation) to best suit their ability. the lesson finishes with an exam questions and exit ticket.
The lesson looks at the 3 methods of heat transfer: radiation, convection and conduction. This is done via demonstrations and discussion. With a double bubble the students take the ideas of convection and radiation and compare and contrast them before they write a GCSE style 6 mark questions, this is differentiated via a hinge point question. The lessons concludes with an exit ticket.
The resource includes the learning outcomes with RAG code for confidence and an exit ticket tracker for recording the exit ticket scores at the end of the lesson. There are two knowledge organisers both with differentiated questions on the back.
The lessons is intended to help students recall core knowledge by short answer testing. I covers key content from the last 5 lessons.
** this is not a stand alone resource and should be purchased along with my other forces and energy resources.
The lesson start by looking at the Apollo 8 rocket taking off and introduces the huge unbalanced forces at play. The teacher then lead with a series of images of scuba divers an gives an opportunity to question the class. The lesson builds to start including numbers so the student can calculate the resultant force before the students construct meaning using a simple worksheet on force diagrams. The lesson concludes with a detailed exit ticket.
The lesson start by looking at the Apollo 8 rocket taking off and introduces the huge unbalanced forces at play. The teacher then lead with a series of images of scuba divers an gives an opportunity to question the class. The lesson builds to start including numbers so the student can calculate the resultant force before the students construct meaning using a simple worksheet on force diagrams. The lesson concludes with a detailed exit ticket.
This is an outstanding series of lessons aimed at providing the foundation to GCSE 9-1 success. This Mastery style curriculum scaffold learning and includes constant recapping and revising to ensure content and skills are not lost. The scheme includes two short answer assessments with remediation of knowledge, a 'redraft for success' 6 mark question, exit ticket revision.
Admin: Learning Outcomes, Knowledge Organiser part 1 and part 2.
Lesson 1: forces intro,
Lesson 2: contact and non-contact,
lesson 3: 6 mark question feedback,
Lesson 4: testing friction,
Lesson 5: DIRT on friction,
Lesson 6: short answer assessment a revision, Lesson 7: weight and mass
Lesson 8: Magnets.
Lesson 9: Magnetic Fields
Lesson 10: Free body diagrams
Lesson 11: Resultant force
Lesson 12: short answer assessment and revision.
Lesson 13: energy
Lesson 14: chemical energy
Lesson 15: stored energy
Lesson 16: energy transfer
Lesson 17: 6 mark question
Lesson 18 : short answer test and revision
End of unit test
The lesson starts by assessing baseline knowledge by reviewing the meaning of energy. There is then a card sort which involves associating the energy with pictures to act as a memory prompt.
There is a short video to push the students to identify forces and reviewing their knowledge. The lesson has an AFL task embedded in it to direct learning, this leads to 3 different task, two on the attached KO and one Cloze activity. The lesson concludes with an exit ticket.
The lesson starts by reviewing previous learning with the knowledge organiser. The lesson then moves to discuss the 3 potential energies before the students attempt a pyramid of differentiated tasks. The lesson concludes with an exit ticket.
The lesson starts by explain the law of thermodynamics before the student experiment with a series of mini-activities and identify the energy transfer happening within them. The learning is assess via a hinge point question before a differentiated activity. The lesson concludes with an exit ticket.
The lesson starts by looking at the video of the detonator ride. The students then produce a flow diagram before attempting a first draft of the 6 mark answer.
The lesson focuses on the students ability to answer short answer assessment. Once the test is done the student revise ares of weakness using the knowledge organiser.
This is the end of unit test that assesses learning the the series of work. There is a grade converter to give and accurate idea of the 9-1 grades these student would currently be working at. There is a flight path to assess whether the student is on track or not.
This is a revision resource for the low to mid ability. The lesson consists of looking at and modelling the calculation before the students attempt the calculation and them try an exam style question. This is the format for calculating: speed, weight, acceleration and force.
Mastery Scheme of Work: Waves and Electricity- lesson 1
The lesson focuses on a simple wave model, the students build a wave machine to illicit ideas about wave movement. This is followed by a hinge question which differentiated the out come and allows students to formulate their own ideas at an appropriate level for them. The lessons concludes with a demonstrate activity followed by an Exit ticket.
The resource is highly differentiation and drives student towards coming up with their own rule for refection. The differentiated resource comes of the back of a hinge point question.
This is sample resource for the scheme of work available from the premium resources type in -
'Waves and Electricity - 13 lessons and end of topic assessment.'
The lesson starts with a review of previous learning, before modelling how to calculate frequency. The understanding of this calculation is assessed via a hinge point question, this directs learning to one of three tasks, the students demonstrates their learning before the lesson concludes in an exit ticket.