Calculate the missing outputs and inputs from the function machines below.
For each of your answers, shade the corresponding number on the grid below to reveal the secret code. The secret code includes letters and numbers.
In this worksheet, students will practice solving algebraic expressions using a unique and engaging pyramid format. Each pyramid contains a sequence of expressions that build upon each other, with the final expression at the top of the pyramid. Students must use their knowledge of algebraic operations such as addition, subtraction, multiplication, and division to determine the missing values in each pyramid. This worksheet is designed to challenge students’ critical thinking skills and reinforce their understanding of algebraic concepts. With clear and concise instructions and multiple pyramids to solve, this worksheet is an excellent resource for students to sharpen their algebraic skills and improve their problem-solving abilities.
Lesson Description:
In this lesson, we will explore the causes behind deforestation, a critical environmental issue affecting our planet. Specifically designed for GCSE students, this lesson aims to provide a comprehensive understanding of the key factors driving deforestation around the world. We will delve into the various human activities and socio-economic factors that contribute to the loss of our valuable forest ecosystems. By examining real-world examples and case studies, students will gain insight into the complex and interconnected causes of deforestation. This lesson will equip students with the knowledge and awareness necessary to engage in meaningful discussions about environmental conservation and sustainable practices.
This question sheet is designed to help students develop their understanding of algebraic formulas. The sheet contains a variety of questions related to common algebraic formulas.
Your maths worksheet on “Rounding to Significant Figures” is designed to help you understand how to round numbers to a certain number of significant figures.
Significant figures are the meaningful digits in a number, and they are used to indicate the precision of a measurement. When rounding to significant figures, you need to identify which digits are significant and which are not, and then adjust the number accordingly.
Your worksheet may include various examples and exercises that will help you practice rounding numbers to a specific number of significant figures, such as rounding to 2 or 3 significant figures. You may also encounter different types of numbers, including decimals, fractions, and scientific notation.
By the end of the worksheet, you should have a good understanding of how to round numbers to a certain number of significant figures, and be able to apply this skill to real-world problems that require accurate measurements and calculations
This worksheet is designed to help students practice their skills in identifying patterns and relationships between sets of coordinates in two-dimensional space. Each set of coordinates is presented with a missing coordinate, and students are tasked with analyzing the pattern in the given coordinates to determine what the missing coordinate should be.
This worksheet is designed to help students understand and identify the different types of angles that can be found within various shapes. Students will be presented with a series of shapes, including triangles, quadrilaterals, and polygons, and asked to identify the different types of angles present in each shape.
GCSE worksheet
These frequency trees worksheets are designed for students to practice their skills in constructing and interpreting frequency trees. The worksheets include a variety of problems that involve different types of data
Welcome to an engaging and comprehensive GCSE lesson on “Ecosystems and Biomes”! In this exciting session, we will explore the fascinating world of ecosystems and biomes, unraveling the intricate connections between living organisms and their environments.
Throughout this lesson, we will delve into the concept of ecosystems, which are like bustling communities where plants, animals, and other living things interact with each other and their surroundings. We will learn about the delicate balance that exists within ecosystems and how different organisms depend on each other for survival.
Furthermore, we will dive into the concept of biomes, which are large-scale regions on Earth with distinct climates, landscapes, and ecosystems. We will embark on a virtual journey around the globe, exploring various biomes such as rainforests, deserts, grasslands, and more. Through vivid visuals and engaging discussions, we will understand the unique characteristics of each biome and the incredible diversity of life they support.
In this comprehensive lesson, we will also investigate the intricate relationships between human activities and ecosystems. We will discuss the impact of human actions on the environment, including issues such as deforestation, pollution, and climate change. Moreover, we will explore the importance of sustainable practices and how we can protect and conserve our ecosystems and biomes for future generations.
By the end of this lesson, you will have a solid understanding of the key concepts related to ecosystems and biomes. You will be able to identify and describe different types of ecosystems and biomes, explain the interdependencies within these systems, and evaluate the environmental challenges they face.
Get ready for an immersive learning experience as we delve into the captivating world of ecosystems and biomes. Let’s explore, discover, and appreciate the incredible diversity and interconnectedness of life on our planet.
This PowerPoint presentation is designed to help students understand the concept of arithmetic sequences, which are sets of numbers that follow a specific pattern. The presentation includes clear and concise explanations of the properties of arithmetic sequences, such as the common difference, the first term, and the nth term. Additionally, the presentation covers topics such as finding the sum of an arithmetic sequence and determining whether a sequence is arithmetic or not
Functional skills 2 / GCSE
This lesson focuses on the concept of BIDMAS, which is an acronym that stands for Brackets, Indices, Division, Multiplication, Addition, and Subtraction. BIDMAS is an order of operations used to simplify mathematical expressions and ensure that all calculations are performed correctly.
The presentation includes clear and concise explanations of how BIDMAS works, including examples that demonstrate how to apply the rule in practice. The lesson covers topics such as simplifying expressions with multiple operations, working with negative numbers, and applying BIDMAS to real-world problems.
With engaging graphics and easy-to-understand examples, this lesson is an excellent resource for students who are new to BIDMAS or who need a refresher on the topic. By the end of the lesson, students will have a solid understanding of how BIDMAS works and will be able to apply it to solve mathematical problems with confidence.
This lesson is perfect for students who are studying mathematics at a range of levels, from high school to university, as well as for anyone who needs to use BIDMAS in their daily life or work.
GCSE lesson + worksheet
In this comprehensive GCSE lesson, students will learn how antibiotics work and why they are a crucial tool in treating bacterial infections. The lesson will cover the differences between bacteria and human cells and explain how antibiotics selectively target bacterial cells without harming our own cells.
Students will also learn why antibiotics are ineffective against viral infections and the dangers of antibiotic resistance. Through the story of Bella’s experience with antibiotics, students will understand how antibiotic-resistant bacteria can develop and the consequences of their proliferation.
The lesson will conclude with a discussion on responsible antibiotic use and the role of individuals, doctors, and policymakers in reducing the spread of antibiotic-resistant bacteria. By the end of the lesson, students will have a clear understanding of the importance of antibiotics and how to use them responsibly to protect public health. The accompanying worksheet will provide students with the opportunity to apply their knowledge and test their understanding of the topic.
In this lesson, students will learn about the fascinating world of Fibonacci sequences. Fibonacci sequences are sets of numbers that follow a specific pattern, where each number in the sequence is the sum of the two preceding numbers. Students will explore the properties of these sequences, such as the golden ratio and how it relates to Fibonacci numbers. They will also learn about the real-world applications of Fibonacci sequences, such as in nature, art, and architecture.
This lesson is specifically designed for students at the functional skills level 2 who need to develop their understanding and skills in working with fractions, decimals, and percentages. The presentation includes clear and concise explanations of these topics, as well as how they are related to each other.
With simple and easy-to-understand examples and engaging graphics, this lesson is an excellent resource for students to enhance their problem-solving skills and to apply these skills in real-life situations. The lesson covers important topics such as converting between fractions, decimals, and percentages, and using them to solve problems involving money, percentages, and discounts.
By the end of this lesson, students will have a solid foundation in the basics of fractions, decimals, and percentages, and will be able to solve problems related to these concepts. This lesson is perfect for students at the functional skills level 2 who need to master these concepts as part of their education or in preparation for further study or employment.
In this brief lesson, students will learn about the concept of function machines, which are mathematical models used to represent functions. The presentation includes clear and concise explanations of how function machines work, including input and output values, and how they can be used to solve problems. Additionally, the presentation covers topics such as domain and range, and how they relate to function machines.
With simple and easy-to-understand examples and engaging graphics, this brief lesson is an excellent resource for students to develop their understanding of function machines and enhance their problem-solving skills.
This lesson is designed to help students studying GCSE Algebra to understand and apply the basic rules of algebra. The presentation provides clear and concise explanations of key concepts, including simplifying expressions, expanding brackets, and solving equations.
The lesson covers a range of algebraic techniques and formulas that are essential for success in GCSE-level math exams. It also includes plenty of examples and practice problems that students can work through to reinforce their understanding of the material.
With engaging graphics and step-by-step explanations, this lesson is an excellent resource for students who are new to GCSE-level algebra or who need a refresher on the basic rules. By the end of the lesson, students will have a solid foundation in algebraic concepts and will be able to tackle more advanced topics with confidence.
This lesson is suitable for a wide range of students, including those studying GCSE-level math or anyone looking to brush up on their algebra skills. The lesson is particularly helpful for students who struggle with algebraic concepts and need additional support to achieve success in their exams.
This lesson is designed for students who are new to the concept of mathematical fractions. The presentation includes clear and concise explanations of what fractions are and how they work, including the concepts of numerators and denominators, equivalent fractions, and simplification.
With simple and easy-to-understand examples and engaging graphics, this lesson is an excellent resource for students to develop their understanding of fractions and enhance their problem-solving skills. The lesson also covers common operations involving fractions, including addition, subtraction, multiplication, and division.
By the end of this lesson, students will have a solid foundation in the basics of mathematical fractions and will be able to solve simple problems involving fractions. This lesson is perfect for beginners who are just starting to learn about fractions, as well as for anyone who needs a refresher on the topic.
GCSE/ FS2
This lesson is designed to help students master a range of essential math formulas, covering topics from basic arithmetic to more advanced algebraic and geometric calculations. The presentation provides a clear and concise overview of each formula, including how to apply it in different scenarios and examples of real-world applications.
The lesson covers a range of math formulas, including those for calculating area, perimeter, volume, and surface area, as well as formulas for working with triangles, circles, and other geometric shapes. It also includes techniques for working with exponents, logarithms, and other advanced mathematical concepts.
With engaging graphics and step-by-step explanations, this lesson is an excellent resource for students who want to build their confidence in using math formulas. The lesson includes plenty of examples and practice problems to help students master each concept and apply it in different scenarios.
This lesson is suitable for a wide range of students, from those studying basic arithmetic to those working on more advanced mathematical concepts. It is particularly useful for students who struggle with memorizing math formulas or who need additional support to build their confidence in using these concepts. By the end of the lesson, students will have a solid foundation in essential math formulas and will be able to apply them with ease in their studies and in real-world scenarios.
Lesson Title: What is a Chemical Reaction?
Grade Level: Year 8 (13-14 years old)
Duration: 45-60 minutes
Learning Objective:
Students will be able to define a chemical reaction and identify its key features.
Students will be able to differentiate between physical and chemical changes.
Students will be able to identify common examples of chemical reactions in everyday life