I sell great quality resources at reasonable prices. I plan my lessons so they can literally be picked up and used of the shelf.
Why spend your precious time planning lessons, when you can use these.
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I sell great quality resources at reasonable prices. I plan my lessons so they can literally be picked up and used of the shelf.
Why spend your precious time planning lessons, when you can use these.
Thanks for looking
Exciting KS3 Christmas Science Quiz!
Look no further! Our KS3 Christmas Science Quiz is the perfect solution to bring some holiday cheer into your classroom while reinforcing key scientific concepts.
What’s Included:
Biology Round: Explore the wonders of plant biology with questions about Christmas trees and the process of photosynthesis.
Chemistry Round: Dive into the chemistry of Christmas with questions on the composition of snow, the science behind Christmas lights, and more.
Science of Christmas Round: Discover the fascinating science behind holiday traditions, from the formation of snowflakes to the materials used in decorations.
Why Choose Our Quiz?
Engaging Content: Each question is designed to captivate students’ interest and make learning fun.
Comprehensive Answers: Full answer slides are included to facilitate easy review and discussion.
Curriculum-Aligned: The quiz is tailored to KS3 students, ensuring it complements your existing curriculum.
Bring the magic of Christmas into your science lessons and watch your students’ enthusiasm for learning soar!
Buy now and make this holiday season a memorable and educational experience for your students!
This Big Fat Christmas Science Quiz of the Year is the perfect resource to bring some festive cheer into your classroom while reinforcing key scientific concepts.
This comprehensive quiz is designed to captivate and challenge students with five exciting multiple choice rounds, including:
The Science of Christmas: Explore the fascinating science behind Christmas traditions and phenomena.
Science in the News 2024: Keep your students up-to-date with the latest scientific discoveries and breakthroughs from this year.
GCSE Chemistry: Test their knowledge with questions aligned to the GCSE AQA chemistry curriculum.
GCSE Biology: Reinforce biology concepts with questions tailored to the GCSE syllabus.
GCSE Physics: Challenge their understanding of physics with engaging and curriculum-relevant questions.
Why Choose This Quiz?
Engaging Content: Each round is carefully crafted to be both fun and educational, ensuring your students stay interested and motivated.
Curriculum-Aligned: All questions are designed to reinforce key concepts from the GCSE AQA curriculum, making it a valuable revision tool.
Includes Answers: Save time with a complete set of answers provided for each question, making it easy to review and discuss with your students.
Bargain Price: Get this fantastic resource at an unbeatable price, perfect for budget-conscious educators.
Don’t miss out on this opportunity to make learning fun and festive! Purchase the Big Fat Christmas Science Quiz of the Year today and give your students a holiday treat they’ll remember.
This lesson builds students up to naming compounds made from non-metals and metals, which end in-ide and then moves on to naming compounds which contain a non-metal, metal and oxygen which end in -ate.
This worked well for a low ability year 11 class, but scaffolding could be taken out to provide more challenge.
A worksheet is included and can be differentiated accordingly to test the understanding of different learners,
This is an introductory lesson where students use their prior knowledge of atomic mass (Protons and neutrons) to create their own definition for an isotope. They are then guided on how to calculate relative atomic masses from relative abundances of isotopes.
Worked well with a middle ability year 9 class.
This lesson encourages students to come up with ideas about why salt is placed on icy roads. This get students thinking of a concrete example of how pure and impure substances differ. To reinforce this concept further, students conduct a simple practical where they measure the temperature of melting ice with and without salt.
All worksheets are included within the powerpoint.
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In this lesson students apply their knowledge of calculating empirical formula by reacting known masses of magnesium with unknown masses of oxygen to make a known mass of magnesium oxide which they can then use along with relative atomic masses to calculate the ratio of oxygen to magnesium and in turn the empirical formula of magnesium oxide.
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This lesson introduces student to the concepts of relative atomic mass and relative formulae and uses this as a platform to introduce calculation of empirical formulae. The calculation of empirical formulae is introduced through a methodical tabled approach which students can master readily and then attempt with out the framework. They then get to practice their calculation on a made up compound made of sweets. If they get the empirical formula correct they get to eat the sweets.
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This is an introductory lesson to the concept of conservation of mass where students investigate what happens to the mass of water when salt is added to it. They then have to try and explain why the mass goes up despite not being able to see the salt anymore.
Self contained lesson that really got the students engaged.
Save yourself some time and grab a bargain.
This is an introductory lesson to chromatography and the term pure. Students create a chromatogram of their own pen and compare it to others. They discover real life applications of this technique.
This lesson is aimed at KS3 to help to develop students investigation skill where they have to identify and categorise the different variables in the experiment, choose the control variables and explain why. The practical is simple and fun where they see how much stomach acid (HCl) branded and unbranded heartburn tablets neutralised. This is a self contained lessons with all instructions and worksheets built in. This will easily last a double period, so grab yourself a bargain and save some time.
This lesson encourages students to start thinking about continuous and discontinuous data with lots of concrete examples. They plot a human bar graph of favourite colours and then carry out a small experiment investigating how the volume of vinegar added to baking soda alters the amount of foam produced. This easily lasts a double lesson (100minutes) and is a really fun way to get students engaged with graphs.
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This lesson is intended for GCSE students at looks at what the atomic number and atomic mass tell us about the atom. It also looks at the idea of isotopes.
This lesson covers the changing models of the atom up until todays structure with the nucleus containing neutrons and protons and surrounded by shells containing electrons.
In this lesson students are given a range of cards with select information about different elements, just as Mendeleev had. They are then set the task of arranging the cards in anyway they see fit. They then look at how Mendeleev arranged them and used them to make predictions about missing elements which the students then do. The lesson concludes with a six mark question on how the periodic table is arranged.
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This lesson encourages students to question different aspects of the periodic table such as groups and periods and investigate patterns in properties of elements.
All worksheets provided within power point except a periodic table which can easily be sourced online.
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This lesson teaches students to first calculate moles of a substance from Ar and mass in grams, it then leads on to calculations of moles from Mr and then from concentrations in mol/dm. It then differentiates for students who understand it quickly and are set independent work (worksheets provided) and another teacher focus group with a more scaffolded worksheet.
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This lesson revolves around a practical where students have to experimentally determine which site of salt production presents the best yield of salt.
Students then use their results to calculate the concentration in g/dm. This is then built on in the following lesson to calculate mol/dm.
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Lesson 1 looks at investigating through a practical why some waters lather better than others and concludes with a BIG write/6 mark question that has success criteria which can be readily marked by yourself or the students.
Lesson 2 - Introduces students to the idea of calculating concentrations of solute in solutions.
All worksheets are provided.
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The start of this lesson involves a BIG write where students are provided with information on the water poisoning incident at Camelford and are asked with success criteria to explain how they could test to see if the water was safe to drink using knowledge from previous lessons in this topic.
The second half of this lesson involves a learning check to see who is confident with writing and balancing symbol equations.
On the back of this check confident students compete in a race with other groups of confident students to balance a series of ever increasingly hard equations.
Students who are less confident work with the teachers in a focus group on balancing equation.
I used this for an observed lesson and it worked really well.
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Lesson 1 focuses on a practical testing various cations apart from ammonium ions
Lesson 2 focuses on a practical testing a variety of fertilisers to see if they contain ammonium ions
All worksheets and notes for technicians are provided.
Save yourself some time and grab a bargain.