This bundle is a complete topic pack containing all powerpoints, student worksheets, risk assessments, stretch and challenge tasks, and answer sheets for the Biology topic “Cells”. It also contains many student-led activities on the powerpoints (particularly designed to make the learning of parts and functions of cells easier, more fun and student-led), plenary activities, and reading and literacy tasks (for specialised cells and unicellular organisms) Bundle includes: Lesson 1: Observing cells with a microscope Lesson 2: Animal Cells Lesson 3: Plant Cells Lesson 4: Specialised Cells Lesson 5: Movement of Substances (diffusion) in and out of cells Lesson 6: Unicellular Organisms (focusing on euglena and amoeba) Lesson Objectives: Lesson 1: Observing Cells Name the parts of a microscope Describe how to use a microscope to observe very small objects Calculate the total magnification used to observe an object View and focus objects under a microscope Lesson 2: Animal Cells State what a cell is Name the different parts of an animal cell Describe the function of each part of an animal cell Use a Microscope to view animal cells (cheek cells) Lesson 3: Plant Cells Identify parts of a plant cell from a diagram Describe the function of each part of a plant cell Compare the similarities and difference between an animal and plant cell Use a microscope to view plant cells (pond weed) Lesson 4: Specialised Cells Know what a specialised cell and an adaptation is Give some examples of specialised cells Identify and describe the adaptations of some specialised cells Explain how an adaptation makes a specialised cell good at its function Lesson 5: Movement of Substances in and out of cells Name some substances that move into and out of cells Describe the process of diffusion Describe examples of diffusion in cells **Lesson 6: Unicellular Organisms ** Know what a unicellular organism is Name 2 examples of unicellular organisms Describe the features of an amoeba Describe the features of an euglena

This bundle contains all the content relevant to AQA Triple Chemistry students in the new 9-1 syllabus. Includes 4 LESSONS worth of teaching materials: This includes the standard tests and characteristic results/colour changes for: positive metal ion flame tests (Li, Cu, K, Na, Ca), positive metal ion precipitate tests with NaOH (Fe(III), Fe(II), Cu(II), Mg, Ca, Al) sulfate test with barium nitrate/chloride halide tests (Cl, Br and I) with silver nitrate carbonate tests with dilute acid and lime water These lessons contain full powerpoints, student worksheets, complete answers, risk assessments/technician order forms, stretch and challenge tasks, relevant exam questions, and AfL plenary activities Lesson 1-2: Identifying positive metal ions (flame tests and precipitate tests) Lesson objectives: Carry out simple flame tests to identify positive metal ions Carry out simple precipitate tests to identify positive metal ions Describe how to carry out a flame test and a precipitate test, including the names of any important reactants Describe the problems and limitations of using flame tests and precipitate tests to identify positive metal ions Lesson 3 - Identifying negative non-metal ions Lesson objectives: Carry out simple precipitate tests to identify halide, sulfate and carbonate ions Describe how to carry out precipitate tests to test for halide, sulfate and carbonate ions, including the names of any important reactants Write balanced symbol and ionic equations for the reactions taking place in precipitation reactions Lesson 4 - Instrumental Analysis and Flame Emission Spectra Lesson objectives: Know what instrumental techniques are Describe advantages and disadvantages of instrumental techniques over other analysis techniques (e.g. flame tests) Interpret flame emission spectra to identify unknown elements in a mixture Lesson resources include: Complete and full powerpoints - including starter activities, challenge activities, tables of results, practical instructions, questions with complete answers Student worksheets and practical sheets with instructions and tables for results (PDF and editable word versions) Student worksheet answers (PDF and editable word versions) Practical risk assessments/order forms (up to date with CLEAPPS data as of Oct 2023) Relevant practice exam questions with mark schemes and examiners reports.

A comprehensive, complete, engaging and challenging set of lessons and activities to teach students the basics of elements, compounds, mixtures and chemical formulas. This scheme/package is designed with non-science/non-chemistry specialist teachers in mind! Lessons included in this bundle: Elements and Compounds Chemical Formulas Counting atoms in a Formula Pure Substances Mixtures Included in each lesson: Lesson powerpoint - including teacher notes and answers in “notes” section Student-led lesson worksheet Teacher answer sheet Lesson resources contain: In-built stretch and challenge tasks throughout In-built scaffolded learning for lower abilities Various AFL activities to assess progress and understanding that you can tailor to fit any class or available resources (these include “think, pair, share”, molymod activities, mini-whiteboard quizzes) Relevant risk assessments for any practical work (updated as of March 2023) By the end of the topic, students will: Know what an “element” and a “compound” is Describe the difference between an element and a compound Know what an “atom” and a “molecule” are Describe the difference between an atom and a molecule Draw/make particle diagrams and models to represent elements, compounds, single atoms and molecules Understand why scientists use chemical symbols to represent elements Identify simple elements from their chemical symbols Identify elements in a chemical formula Classify chemical formulas as elements or compounds Count the number of atoms in a basic formula Identify elements in a chemical formula Count the number of atoms in formulas containing subscripts Count the number of atoms in formulas containing multipliers Describe what a pure substance is Identify examples of pure substances in everyday life Identify pure substances from particle diagrams and examples Carry out a practical investigation to identify pure substances Describe what a mixture is Give examples of mixtures in everyday life Identify mixtures from particle diagrams and examples Draw/make models representing mixtures