Transcript File
Syllabus/Unit: code: C2 Chemical Resources Lesson number: 7 Lesson Title: Fertilisers and Crop Yields Learning Outcomes Learning Outcome 1: Recall the three essential elements needed for plant growth Grade C Learning Outcome 2: Identify key fertilisers and explain how they increase crop yields Grade B How I did Targets Connector: What factors can affect the healthy growth of a plant? Learning Outcome 3: Evaluate the negative impact of using fertilisers Grade A/A* 22:25 Extended Learning • Extended Learning task: • Due date: next lesson • Criteria for Grade C: • Criteria for Grade B: • Criteria for Grade A: 22:25 BIG picture Key Question: How are organisms classified? • What skills will you be developing this lesson? • HSW- by planning and carrying out an investigation/ Interpreting data/ evaluating an experiment Numeracy- by using formulae in calculations Literacy- by writing explanations using correctly spelt keywords and good grammar. Team work- during a practical investigation Self management- by completing an individual assignment by ….. Participation- during a practical activity Reflection- through self and peer assessment of each outcome • • • • • • •How is this lesson relevant to every day life? Identify and maintain global diversity Where does this lesson fit in to the rest of the topic? Lesson 5 •Quick Discussion: •What do you already know? 22:25 Keywords: • • • • • Essential elements Eutrophication Algal bloom Aerobic bacteria Nitrogenous fertiliser Put your hand up if there is any key word from the list that you don’t know the meaning of. 22:25 New Information for Learning Outcome 1 • Plants need certain elements to make them grow properly. These three essential elements for plant growth are: 1. Nitrogen (N) 2. Phosphorus (P) 3. Potassium (K) • These elements are found combined with other elements in the soil – forming compounds called minerals. – E.g. Ammonium nitrate contains nitrogen, potassium phosphate contains potassium and phosphate. • Plants absorb water and dissolved minerals through their roots. They cannot absorb insoluble minerals. New Information for Learning Outcome 1 • Fertilisers are chemicals that provide plants with these essential elements. • They make crop plants grow faster and bigger, which increases the crop yield. • Since plants can only absorb minerals dissolved in water, fertilisers must be soluble in water too. • The world population is rising quickly, so we need to provide more food – fertilisers help achieve this. Demonstrate your Learning for Outcome 1 Create Evaluate Apply (C) Analyse Understand (D) Explain why fertilisers must be water-soluble? Apply What is a fertiliser and what does it do? Understand Remember (E) Name three essential elements for plant growth Remember 22:25 Learning Outcome 1: Review Go back to your Learning Outcome grid and fill out the ‘How I did’ and the ‘Targets’ column. Learning Outcome Learning Outcome 1: Recall the three essential elements needed for plant growth Grade C How I did Met? Partly met? Not met? Targets How can I improve on Learning Outcome 1? 22:25 New Information for Learning Outcome 2 • As plants grow, they absorb dissolved minerals from the soil. • If a farmer removes a plant, these minerals are removed from the soil; and as this continues, minerals in soil decrease. • So fertilisers are important because they replace essential elements used by previous crops. In fact they may even provide extra! • E.g. Plants need nitrogen to make proteins, and when fertilisers use nitrogen supplied by plants, these plants grow even more than usual. New Information for Learning Outcome 2 • Many of the fertilisers used around the world are ammonia based, which is made via the Haber process which you have studies earlier. • These so called nitrogenous fertilisers include: • Urea, (NH2)2CO • Ammonium nitrate, NH4NO3 • Ammonium sulphate, (NH4)2SO4 • Ammonium phosphate, (NH4)3PO4 • Potassium nitrate, KNO3, is also nitrogenous – but not made directly from ammonia • Ammonia could be used on its own too, as a supply of nitrogen, due to its solubility. But isn't usually due to its sharp smell when not in a compound. New Information for Learning Outcome 2 • However, how are fertilisers made? • Fertilisers are made by neutralising acids with alkali. For example: • Nitric acid + potassium hydroxide = potassium nitrate • The ammonia based fertilisers made as follows: • Ammonia + nitric acid = ammonium nitrate • Ammonia + sulphuric acid = ammonium sulphate • Ammonia + phosphoric acid = ammonium phosphate New Information for Learning Outcome 2 • You will now name your own fertiliser: • See Sheet as follows: Student activity 2.14.1 Lesson reference: 2.14 Making fertilisers Book links: Page 154 Specification links: C2g Keywords: Demonstrate your Learning for Outcome 2 Create Evaluate Analyse (B) Describe how you could make potassium nitrate from potassium hydroxide and nitric acid. Include all steps and observations. Analyse Apply (C) Explain what ammonum nitrate is, hows its made and why it allows plants to grow taller 22:25 Apply Remember (E) Understand Remember What type of fertilisers are urea and ammonium sulphate? Learning Outcome 2: Review Go back to your Learning Outcome grid and fill out the ‘How I did’ and the ‘Targets’ column. Learning Outcome Learning Outcome 2: Identify key fertilisers and explain how they increase crop yields Grade B How I did Met? Partly met? Not met? Targets How can I improve on Learning Outcome 2? 22:25 Eutrophication Yet another example of pollution, eutrophication is when lakes become stagnant due to careless use of fertiliser. There are six steps: 1) Inorganic fertilisers used on fields are washed into the lake 3) This growth causes overcrowding and many plants die due to lack of enough light or food 2) The increase in nitrates or phosphates causes the over growth of algae – producing a thick green layer called algal bloom Eutrophication 4) Micro-organisms like aerobic bacteria increase in number due to the extra dead material 6) The lack of oxygen causes the death of fish and other aquatic animals Can’t…breathe… 5) These micro-organisms use up the oxygen in the lake during respiration An algal bloom in a lake, caused by over-use of fertilisers Demonstrate your Learning for Outcome 3 Create (A*) Describe the process of eutrophication Evaluate (B) Explain how a fertiliser containing nitrogen can lead to increased plant growth Analyse Apply Understand 22:25 Remember Learning Outcome 3: Review Go back to your Learning Outcome grid and fill out the ‘How I did’ and the ‘Targets’ column. Learning Outcomes Learning Outcome 3: Evaluate the negative impact of using fertilisers Grade A/A* How I did Met? Partly met? Not met? Targets How can I improve on Learning Outcome 3? 22:25 Review for Remembering • Stand up if you have met all three lesson outcomes? • If not what do you need to do next in order to meet the outcome? Record this in your diary as part of your homework. • Is there any part of the lesson you think you need to go over again next lesson? • Tell the person next to you three things you have learnt this lesson. • How will you remember this for your exam? 22:25 Science Department Lesson plan Teacher information 22:25