Lesson starts with a recap on the previous lesson Then moves on to the wave particle duality. Videos are used for this, but cannot be included due to copyright reasons so you will have to find your own for this. DeBroglie wavelength formula introduced, with examples, then a worksheet to complete and some exam questions

All theory taught, with examples and with a worksheet to complete. Exam questions are also included

Lesson introduces the ways in which ionisation can occur, giving the students opportunities to answer the questions on the worksheet. Students are then presented with a game to play which consolidates all the calculations they have done prior to this.

Lesson starts with introducing the photon, then the work of Einstein and the theory behind photoelectricity. Students are prompted throughout the lesson to complete various parts on the worksheet (answers included in the powerpoint). There is then a chance to complete an exam question, and the lesson finishes with a 10 word story about the lesson. This lesson was graded outstanding by an external observer.

Intro to the lesson has the students covering things from previous lessons. Then move on to all the conservation laws with lots of examples (some with answers) for the students to complete.

Introduction to the particle families and how they are broken down. Then introduce how lepton number works. Some examples on the board and then a worksheet to complete. Plenary has the student devising games

Lesson starts with a couple of questions on previous topics to check embedded understanding. Students are then taught about matter and antimatter, with worked examples of pair production and annihilation. Students are then to complete a worksheet which includes exam questions. All the answers are on a worked sheet.

Introduction and delivery of the content for this lesson Students then complete a worksheet which includes exam questions. A sheet with the worked examples is included.

Powerpoint to introduce the content, then the students complete a worksheet. Then there are two sets of exam questions for them to complete, and some little quiz cards they can use with a board game, or anything similar.

Starter - Thinking tasks getting the students to think about half lives but without actually talking about them Main - Introduce a half life, then get the students to do a practical to get half life data which they plot, then calculate the half life. Plenary - Graph interpretation and exam questions

Starter - recap on decay equations Main - Again moving through alpha, beta and gamma but as a demo this time, adding information about ionisation power, penetration power and speed. Plenary - Students complete levelled question or exam questions

Starter - Students remembering information from last lesson, then a true and false quiz on radioactivity Main - Remind students about atomic and mass numbers, introduce isotopes, then a short worksheet to recap that information. Move on to the three types of decay and what happens in them, then a longer worksheet of increasing difficulty. All worksheets have answers Plenary - A couple more decay questions

Lesson works students through answering a question on the structure of the atom. They have 3 opportunities to answer the question with your added input in between each attempt. They then check their answers with the mark scheme, then go on to answer exam questions.

Full lesson on Atoms and Radiation Students complete a points to prove activity, this has several questions that they need to answer to either be safe, or get rewards. Plenary - Levelled exam questions with mark scheme

Complete lesson on energy and power. Starter - BoBs Big Five. Students answer 5 recap questions in the back of their books to review what they know so far, answers are included Main -Introduce power, the formula, how to rearrange it then an opportunity for students to test their own knowledge with a worksheet (answers included). Students then move around the room identifying different appliances, working out their powers in W as most are in kW, and then calculating the energy they use. Worksheet is differentiated and this is an activity using non-standard units (kW, mins, kJ etc), again answers are included Plenary - Bingo. students pick 9 values from the slides and then have to do calculations to clear their boards. All answers are in the notes.

Complete lesson on kinetic and elastic energy stores. Starter - Students start thinking about a factor which may affect KE Main -Allow students to think of the other factor which affects KE, then introduce the formula, some worked examples and then the opportunity for students to complete a worksheet (answers included, rearranging opportunities on the sheet). Then moved on to elastic energy, worked examples and then a worksheet for the students to complete. Finally a small practical looking at the energy in an elastic band Plenary - 6 questions on the material covered in the topic so far, answers are in the notes.